Ferroli RGA VB, RGA BR, RGA BP, RGA VD, RGA VR Air-water chiller Installation and Operation Manual
Below you will find brief information for Air-water chiller RGA VB, Air-water chiller RGA BR, Air-water chiller RGA BP, Air-water chiller RGA VD, Air-water chiller RGA VR. The RGA series Air-water chillers and heat pumps for outdoor installation are designed for cooling and heating applications. They use R410A refrigerant and offer various setting options for optimal performance and noise control.
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A RE F S E -FRIEND Y R E IG RA N T G AIR-WATER CHILLERS AND HEAT PUMPS FOR OUTDOOR INSTALLATION O L RGA C INSTALLATION AND OPERATION MANUAL 1 Dear Customer, Thank you for having purchased a FERROLI product. It is the result of many years of experiences and of particular research studies and has been made with top quality materials and advanced technologies. The CE mark guarantees that the products satisfy all the applicable European Directives. The qualitative level is kept under constant control and FERROLI products therefore offer SAFETY, QUALITY and RELIABILITY. Due to the continuous improvements in technologies and materials, the product specification as well as performances are subject to variations without prior notice. Thank you once again for your preference FERROLI S.p.A THIS MANUAL IS DIVIDED INTO SECTIONS. THEIR NAMES APPEAR IN THE HEADING OF EACH PAGE. GENERAL FEATURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 General specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 European Directives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Identification plate of the Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Presentation of the unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Unit identification code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Description of the component . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 ACCESSORIES AND OPTIONAL EQUIPMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 "Storing and hydronic kit" options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Accessori . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Mechanical options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Electrical options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 TECHNICAL DATA - BASE VERSION (VB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Technical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 NOMINAL performances - Base setting up (AB) - Standard plants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 NOMINAL performances - Base setting up (AB) - Radiant plants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 NOMINAL performances - Low noise setting up (AS) - Standard plants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 NOMINAL performances - Low noise setting up (AS) - Radiant plants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 NOMINAL performances - Exta low noise setting up (AX) - Standard plants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 NOMINAL performances - Extra low noise setting up (AX) - Radiant plants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Standard performances in cooling mode IR - Base setting up AB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Standard performances in cooling mode IR - Low noise setting up (AS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Standard performances in cooling mode IR - Extra low noise setting up (AX) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Standard performances in cooling mode IP - Base setting up (AB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 Standard performances in cooling mode IP - Low noise setting up (AS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 Standard performances in cooling mode IP - Extra low noise setting up (AX) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 Standard performances in heating mode IP - Base setting up (AB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Standard performances in heating mode IP - Low noise setting up (AS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Standard performances in heating mode IP - Extra low noise setting up (AX) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 Correction factor for the use of glycol in heating mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 Correction factor for the use of glycol in cooling mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 Fouling factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 TECHNICAL DATA - BR - BP UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 Mandatory requirements for BR and BP units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 TECHNICAL DATA - IR DESUPERHEATER VERSION (VD) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 Base setting up AB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 Low noise setting up AS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 Extra low noise setting up AX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 Performances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 TECHNICAL DATA - IP DESUPERHEATER VERSION (VD) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 Base setting up AB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 Low noise setting up AS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 Extra low noise setting up AX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 Performances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43 TECHNICAL DATA - IR RECOVERY VERSION (VR) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Base setting up AB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Low noise setting up AS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Extra low noise setting up AX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Performances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 NOISE LEVELS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 Base setting up AB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 Low noise setting up AS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 Extra low noise setting up AX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 OPERATING RANGE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 Operating range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 WATER PRESSURE DROP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 Plant side exchanger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 Desuperheaters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 Total recovery exchanger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 WORKING HEAD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 Standard working head pumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 High working head pumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52 DIMENSIONAL AND PHYSICAL DATA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 Overall dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 Description of the components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54 Minimum space required for operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 Position of condensate drain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 2 3 Vibration-damper installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 Area of support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 Transport weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57 Operation weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 Inspections on arrival . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 Safety prescriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 Handling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 Packing removing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 Positioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 HYDRAULIC CONNECTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 General rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 Protection devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 Tips for a successful installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 Water component for corrosion limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 Precautions for the Winter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 Basic diagram Standard Unit VB [PLANT SIDE WATER CIRCUIT] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65 Basic diagram for units with Recovery [RECOVERY WATER CIRCUIT] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65 Air vent and water drain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Piping connection with Victaulic couplings and Water flow switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Valve regulating diagram valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 MAXIMUM VOLUME OF WATER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 Maximum volume of water in the system with wet module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 ELECTRICAL CONNECTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 General rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 Structure of the electric panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 Composition of the system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 Electrical connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 R410A PROTECTION DEVICES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 Refrigerant flow diagram IR VB unit with thermostatic expansion valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74 Refrigerant flow diagram IR VB unit with thermostatic expansion valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75 Refrigerant flow diagram IP VB unit with electronic expansion valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 Refrigerant flow diagram IR VR unit with thermostatic expansion valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 USER INTERFACE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78 Keys . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78 Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79 Menu structure - Main controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80 INPUTS AND OUTPUTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 Inputs and outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 CONTROLLER TECHNICAL DATA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84 ALARMS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 AVAILABLE FUNCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 ST-BY of the unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Operation mode selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Remote ST-BY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Working mode remote change-over cooling / heating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Set point . . . . . . . . . 3 . . 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Antifreeze . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 . .4 . . . . . . . 3 . . 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Supplementary electrical heating elements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Dinamic setpoint . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 Plant . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 3 4 pump on-off control Plant 3pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 4 modulating control Demand limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 Funzione economy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 Recording hours of operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 Power failure . . . . . .3 . . 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 History alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 Total recovery function (VR unit only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 Automatic change-over . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92 Date and time set up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92 Timer scheduling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93 PARAMETERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 Common parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 Specific parameters for VR unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 CONFIGURABLE INPUTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96 PROBE CHARACTERISTICS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 NETWORK COMUNICATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 Modbus address table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99 START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 General Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 General Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 Routine maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 General considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102 SAFETY AND POLLUTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103 Refrigerant safety card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103 First aid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104 DECLARATION OF CONFORMITY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 3 4 4 The manufacturer declines all responsibility for any inaccuracies in this manual due to printing or typing errors. The manufacturer reserves the right to modify the products contents in this catalogue without previous notice. 3 GENERAL FEATURES General specifications • This manual and the wiring diagram supplied with the unit must be kept in a dry place and ready to hand for future consultation when required. • This manual has been compiled to ensure that the unit is installed in the correct way and to supply comprehensive information about how to correctly use and service the appliance. Before proceeding with the installation phase, please carefully read all the information in this manual, which describes the procedures required to correctly install and use the unit. • Strictly comply with the instructions in this manual and conform to the current safety standards. • The appliance must be installed in accordance with the laws in force in the country in which the unit is installed. • Unauthorized tampering with the electrical and mechanical equipment will VOID THE WARRANTY. • Check the electrical specifications on the identification plate before making the electrical connections. Read the instructions in the specific section where the electrical connections are described. • If the unit must be repaired for any reason, this must only be done by a specialized assistance center recognized by the manufacturer and using geuine spare parts. • The manufacturer also declines all liability for any damage to persons or property deriving from failure of the information in this manual to correspond to the actual unit in your possession. • Proper uses: this series of chillers is designed to produce cold or hot water for use in hydronic systems for conditioning/ heating purposes. The units are not suitable for the production of domestic hot water. Any use differing from this proper use or beyond the operating limits indicated in this manual is forbidden unless previously agreed with the manufacturer. • The prevention of the risk of fire at the installation site is the responsiblity of the end user. European Directives The company hereby declares that the unit in question complies with the matters prescribed by the following Directives: • • • • Unit Directive Directive governing pressurized vessels (PED) Electromagnetic compatibility Directive (EMC) Low voltage Directive (LVD) 2006/42/CE 97/23/CE 2004/108/CE 2006/95/CE Any other Directives have to be considered not applicable. Identification plate of the Unit The figure on the left depicts the identification plate of the unit, affixed to the outer left-hand side of the Electric Panel. A description of the data is given below: Codice Code B1 Rev Standard versions A - Trademark B- Model B1- Code C- Serial number D- Cooling Capacity E - Heating Capacity F - G- H- I - L - M- N- O- P - Q- R- S - Ferroli Spa Via Ritonda 78/A (VR) Italy 4 Power input in COOLING mode Power input in HEATING mode Reference standard Electric power supply Maximum load current Type of refrigerant and charge Shipping weight of the unit Sound pressure level at 1m IP Level Protection Maximum pressure - High Side Maximum pressure - Low Side PED certification authority Special versions A - Trademark B- Model B1- Code C- Serial number D- Cooling Capacity (same as Standard Version of the unit) E - Heating Capacity for IR unit, VD version, Recovered Heating Capacity for IP unit, VD version, Heating Capacity / Recovered Heating Capacity F - Power input in COOLING mode (same as Standard version of the unit) G- Power input in HEATING mode H- Reference standard I - Electric power supply L - Maximum load current M- Type of refrigerant and charge N- Shipping weight of the unit O- Sound pressure level at 1m P - IP Level Protection Q- Maximum pressure - High Side R- Maximum pressure - Low Side S - PED certification authority NOTE: The identification plate of the Brine Unit (BR - BP) is filled out as shown in the diagram for the Basic Version of the unit (VB). GENERAL FEATURES Presentation of the unit This series of air-water chillers and heat pumps satisfies the cooling and heating requirements of residential plants of medium size. All the units are suitable for outdoor installation and can be applied to fan coil plants, radiant floor plants and high efficiency radiators plants. The refrigerant circuit, contained in a compartment protected from the air flow to simplify the maintenance operations, is equipped with scroll compressors mounted on damper supports, brazed plate heat exchanger, thermostatic expansion valve (standard for IR) or electronic expansion valve (standard for IP / option for IR), reverse cycle valve, dehydrator filter, axial fans with safety protection grilles, finned coil made of copper pipes and aluminium louvered fins with subcooling section. The circuit is protected by a safety gas valve, high and low pressure switches and differential pressure switch on the plate heat exchanger. The plate heat exchanger and all the hydraulic pipes are thermally insulated in order to avoid condensate generation and to reduce thermal losses. All the units can be equipped with variable speed fans control that allows the units to operate with low outdoor temperatures in cooling and high outdoor temperature in heating and permits to reduce noise emissions in such operating conditions. The low noise acoustic setting up (AS) is obtained, starting from the base setting up (AB), reducing the rotational speed of the fans and mounting sound jackets on the compressors and the technical compartment is clad with soundproofing material of suitable thickness. The eXtra low noise acoustic setting up (AX) is obtained, starting from the low noise setting up (AS), further reducing the rotational speed of the fans and using finned coil with bigger surface. All the units are supplied with a management and control electrical panel containing general switch, phase presence and correct sequence controller, microprocessor controller with display and all the other electrical components with IP54 minimum protection degree. All the units are accurately built and individually tested in the factory. Only electric and hydraulic connections are required for installation. 5 GENERAL FEATURES Unit identification code The codes that identify the units and the meaning of the letters used are described below. RGA IP 40.2 VB AB 0M5 Unit type IR - Unit suitable for hydronic plant installation operating as chiller IP - Unit suitable for hydronic plant installation operating as reversible heat pump BR - Unit suitable for hydronic plant installation with brine solutions operating as chiller BP - Unit suitable for hydronic plant installation with brine solutions operating as reversible heat pump Unit model Power supply 5 - 400 V - 3 - 50 Hz Operating range M - Medium temperature. The unit is suitable to be installed in temperate climates. A - Medium temperature. The unit is suitable to be installed in tropical climates. Refrigerant type 0 - R410A N° compressors Unit version VB - Base version VD - Desuperheaters version VR - Total recovery version Acoustic setting up AB - Base setting up AS - Low noise setting up AX - Extra low noise setting up The available special versions are described below: VB: Standard unit. VD: Version with Desuperheater (available forboth IR units and IP units) Produces cold water in the same way as the standard version plus hot water from 30 to 70°C at the same time. This is achieved by installing a water-refrigerant gas heat exchanger between the compressor and coils in order to recover 25 to 30% of the heating capacity that would otherwise be dispersed in the air. It helps to remind that hot water production is possible only in combination with cold-hot water production in the main heat exchanger and it is subordinated by it. VR: Total Heat Recovery version Produces cold water as in the standard version plus hot water at a temperature of 30 to 55°C at the same time. This is achieved thanks to a water-refrigerant gas heat exchanger that totally recovers the heating capacity that would otherwise be dispersed in the air. The total heat recovery function is enabled and disabled by means of a valve on the compressor delivery of each circuit: when the temperature of the water that enters the recuperator drops, the valve switches the hot gas flow from the condensing coils to the recovery heat exchanger. On the other hand, when the temperature of the water reaches the set-point, the valve shuts off the heat recuperator and switches the hot gas flow to the condensing coils. It helps to remind that hot water production is possible only in combination with cold water production in the main heat exchanger and it is subordinated by it. 6 GENERAL FEATURES Description of the component 1. Fans. Axial type, they are contained in a sheet nozzle and are equipped with a safety grille, scythe-shaped blades increase the efficiency and reduce the noise level. The fans are directly coupled to the single-phase motor by means of an external rotor. Thermal protection against operating faults is installed inside the winding. The fans rotational speed can be modulated continuosly by an analogue device or an inverter (option) to control the condensation pressure (in cooling) and the evaporation pressure (in heating) in order to extend the operating limits of the unit and to reduce noise emissions. Optionally are available Electronically Commutated (EC) fans, which ensure maximum energy efficiency at reduced speed of rotation. 2. Electric control and monitoring panel. It contains all the power, control and security components necessary to guarantee the unit to work properly. The unit is managed by a microprocessor controller to which all the electrical loads and the control devices are connected. The user interface, placed on the frontal panel, allows to view and to modify, if necessary, all the parameters of the unit. This is housed in a metal casing in which the various electrical components are positioned on one metal plate. 2a. The power section includes: • Main door-locking circuit-breaker. • Fuse-holder that can be isolated with protection fuse triad for each compressor, or thermal magnetic circuit breakers (option). • Fuse-holder that can be isolated with protection fuse for compressor oil heaters and antifreeze (if installed), or thermal magnetic circuit breakers (option). • Control contactor for each compressor or soft starters (option). • Protection fuse for the fans, or thermal magnetic circuit breakers (option). • Thermal magnetic contactor switch to protect the pump (if the Hydronic Kit is installed). • Phase presence and sequence monitoring device on power supply, or voltage monitor and sequence meter (accessory). 2b. The auxiliary section includes: • Fuses on the auxiliary transformer, or thermal magnetic circuit breakers (option). • Electromagnetic noise filter • Adjusting fan speed board (option) • Insulating and safety transformer to power the auxiliary circuit. 2c. The microprocessor monitoring section includes: • User interfacing terminal with display. MODE • On-off key. • Operating mode selector key. • Compressor on-off display LED. °C • Operational mode LED • Antifreeze heaters activated indicator LED. • Fans on-off dislay LED • Pumps on-off display LED • Check-control with fault code display • Defrosting, alarm, economy, stand-by LED. Control system main functions: temperature control of the water produced by the unit, compressor and pump operating hour counter, timing and cycling of start-ups, input parameters by keyboard, alarms management, smart defrosting control and operating mode change (only IP unit), dynamic setpoint (climatic control), scheduling and integrative heaters control. If you installed the hydronic kit these functions are enabled: antifreeze with pump, start-up cycle after prolonged inactivity (antisticking), if the hydronic kit installed has 2 pumps there is a cycling between each pump to ensure an equivalent lifetime, with inverter modulating hydronic kit the water flow of the plant can be adjusted. Digital input functions: low pressure, high pressure, high temperature on compressor supply, phase presence and sequence monitoring device on power supply, differential water pressure control, compressors thermal protection, fans thermal protection, pumps thermal protection (only if installed MP accessory), ON/OFF and remote operating mode change, demand limit and Economy function, recovery enabling (only for the VR Version), recovery Pump Thermal Protective (only for the VR Version), recovery differential water pressure control (only for the VR Version). Digital output functions: compressor start-up, pump start-up (only with MP accessory), plate heat exchanger electrical heater, remote general alarm, 4-way valve (only IP unit), integrative heaters and clean contact on compressors start-up, recovery valve management (only for the VR Version), recovery pump management (only for the VR Version). Analogic input functions: in and out water temperature, coil temperature probe, external air temperature probe (if present), in and out recovery water temperature (only for the VR Version). Analogic output functions: continuous adjustment of axial fans rotating speed (option for AB and standard for AS and AX acoustic setting up), continuous adjustment of pump rotating speed (only if hydronic kit with modulating pump is installed). 7 GENERAL FEATURES 3. Compressors. They are the SCROLL type with orbiting coil equipped with built-in thermal protection and oil heater (accessory for IR, as standard for IP). The AS unit includes: a soundproofing jacket for the compressors, to reduce noise level. All units are equipped with two compressors connected in parallel (1 single cooling circuit) which can operate at the same time (100% cooling power) or individually (50% of the cooling power), thus adapting to the different thermal loads of the system supplied. 4. Frame, supporting structure and lateral panels are made of galvanized and painted sheet-steel (colour RAL 7035) to guarantee good resistance to the weather. Accessibility to internal parts is possible removing the frontal panel, for other manteinances also the lateral panel can be removed. 5. Evaporator made of brazed stainless steel plates (AISI 316). It is installed in a shell of heat-insulating material to prevent the formation of condensation and heat exchanges towards the outside. Standard supply also includes antifreeze heater a differential pressure switch on the water circuit to avoid the risk of freezing if the water flow is shut off for some reason. 6. Condensing coils, the aluminium finned pack type with shaped profile to increase the heat exchange coefficient and with copper pipes arranged in staggered rows. A sub-cooling section is integrated into the lower part. 8 GENERAL FEATURES Hydraulic and cooling circuit components 7.One-way valves (IP unit only), allowing the refrigerant gas to pass into the appropriate exchangers, depending on the operating cycle. 8. 4-way cycle reversal valve (IP unit only), reverses the flow direction of the refrigerant gas as the summer/winter operating mode is changed. 9. Safety valve. Installed on the delivery pipe of the compressors, this operates if extreme faults should occur in the plant. 10. Fluid valve (accessory). Ball type, this allows the gas flow on the fluid line to be turned on and off. Along with the cock on the compressor delivery, it allows the components of the fluid line to be subjected to extraordinary maintenance work and the compressors to be replaced if necessary (without discharging the refrigerant gas from the unit). 11. Compressor delivery valve (accessory). Ball type, allows the gas delivered to the compressors to be turned on and off. 12. Dehydrator filter. Mechanical type. Retains impurities and traces of moisture in the circuit. Hermetic type for mod. 40÷100 or a cartridge type for mod. 115÷200. 13. Fluid and humidity indicator. Signals when fluid passes through the circuit, indicating that the refrigerant gas charge is correct. The fluid indicator light also indicates the amount of moisture in the refrigerant gas by changing colour. 14. Low pressure switch (N°1 of series IR version, N°2 of series IP version). With fixed setting. It is installed on the suction pipe and blocks the compressors if the operating pressures drop below the tolerated values. Automatically resets as the pressure increases. If it activates frequently, the unit will block and can only be restarted by resetting via the user interface terminal. 15. High pressure switch (n°2). With fixed setting. Are is installed on the delivery pipe and blocks the compressors if the operating pressures exceed the tolerated values. If it activates, the unit will block and can only be restarted by resetting via the user interface terminal. 16. Expansion valve: - Thermostatic valve (standard for IR and BR unit) with external equalizer, this supplies the evaporator correctly, keeping the selected overheating degree at a steady level. - Electronic valve (standard for IP and BP unit, optional for IR and BR unit) supplies the evaporator correctly, keeping the selected overheating degree at a more steady level; ensures a faster response to load changes and superior stability which translates into increased efficiency at partial loads. 17. Water differential pressure switch. This is standard supply and is installed on the connections between the water inlet and outlet of the exchanger. It stops the unit if it activates. 18. Pressure taps: 1/4 " SAE (7/16" UNF) type with flow regulator. Allow the operating pressure of the system to be measured: compressor delivery, lamination component inlet, compressor intake. 19. Pressure taps: 5/16 " SAE type with flow regulator. Allow the charge/discharge of the gas from the system, precisely from compressor outlet an expansion valve inlet. 20. Electrical heating elements to heat the compressor oil. "Belt" type (accessory for IR, as standard for IP). These activate when the compressor turns off and keep the temperature of the oil sufficiently high so as to prevent refrigerant gas from migrating during these pauses. Fluid receiver (IP unit only), this is a plenum tank that accounts for variations to the refrigerant gas charge the unit must supply as the summer/winter operating mode varies. Fluid separator (IP unit only), on the compressor intake to protect against possible fluid back-flows. 9 GENERAL FEATURES Desuperheater unit VD (available for both IR units and IP units) Hydraulic and chilling circuit components: 1. Desuperheater. Specially designed for the specific version. Plate type, made of stainless steel (AISI 316). It is installed within a shell of thermal barrier insulating material to prevent heat exchanges towards the outside. Standard supply also includes an electric antifreeze heater to prevent the parts from freezing during the winter, when the system remains at a standstill (if not drained). 2. Water safety valve.On the heat recovery inlet pipe. It acts whenever faulty service leads to an operating pressure in the plumbing system that exceeds the valve opening value (Fig.1). 3. Water drain taps for emptying the exchangers and pipes of the unit dedicated to heat recovery (Fig. 1). 4. Air vent. Accessed by removing the front panels. It consists of a manually operated valve installed in the highest part of the water pipes. To use in conjunction with the water drain cocks situated in the rear part of the unit, for emptying the exchangers and pipes dedicated to heat recovery. 2 1 4 3 10 GENERAL FEATURES Total Heat Recovery unit VR (only available for IR units) Hydraulic and cooling circuit components: 1. Heat recovery exchanger. Specially designed for the specific version. Plate type, made of stainless steel (AISI 316). It is installed within a shell of thermal barrier insulating material to prevent heat dispersion towards the outside. Standard supply also includes an electric antifreeze heater to prevent the parts from freezing during the winter, if is it not drained. 2. Differential water pressure switch. Installed on exchanger. It disables the heat recovery version if activated owing to lack of water flowing through the recovery exchangers. 3. Heat recovery management valve. This delivers refrigerant to the condensing coils or heat recovery exchanger, depending on demands for hot water, and into the appropriate exchangers depending on whether hot water is required or not. 4. Fluid receiver. This is a plenum tank that accounts for the refrigerant charge variations required by the unit as the operating modes change (condensing in air or in water). 5. One-way valves. Make the refrigerant obligatorily pass through the appropriate heat exchangers (coils / heat exchanger), depending on the operating mode. 11 ACCESSORIES AND OPTIONAL EQUIPMENT Storing and hydronic kit "Storing and hydronic kit" options 12 MKT SS Pipe kit without tank This accessory consists of steel pipes insulated with thermal barrier material and allows the water inlet/outlet connection to be routed outside the unit. M1P SS 2P STD 1 Standard pump Allows the circulation of the water on the plant side. M1P SS 2P HP1 1 High head pump Allows the circulation of the water on the plant side and guarantees a higher available static head, suitable for high pressure drop plants. M1PM SS 2P STD 1 Standard modulating pump Allows the circulation of the water on the plant side with the possibility to set the rotational speed of the pump in order to get the requested flow rate without the necessity to install other setting devices. M1PM SS 2P HP1 1 Standard modulating high head pump Allows the circulation of the water on the plant side, ensuring a higher available static head, suitable for high pressure drop plants, with the possibility to set the rotational speed of the pump in order to get the requested flow rate without the necessity to install other setting devices. M2P SS 2P STD 2 Standard pumps Allows the circulation of the water on the plant side and includes a second pump installed as a backup to the first. M2P SS 2P HP1 2 High head pumps Allows the circulation of the water on the plant side, ensuring a higher available static head, suitable for high pressure drop plants, and includes a second pump installed as a backup to the first. MKT AM Pipe kit with tank This accessory consists of steel pipes insulated with thermal barrier material and allows the water inlet/outlet connection to be routed outside the unit. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M1P AM 2P STD Tank and 1 standard pump Allows the circulation of the water on the plant side. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M1P AM 2P HP1 Tank and 1 high head pump Allows the circulation of the water on the plant side and guarantees a higher available static head, suitable for high pressure drop plants. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M1PM AM 2P STD Tank and 1 modulating standard pump Allows the circulation of the water on the plant side with the possibility to set the rotational speed of the pump in order to get the requested flow rate without the necessity to install other setting devices. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M1PM AM 2P HP1 Tank and 1 modulating high head pump Allows the circulation of the water on the plant side, ensuring a higher available static head, suitable for high pressure drop plants, with the possibility to set the rotational speed of the pump in order to get the requested flow rate without the necessity to install other setting devices. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M2P AM 2P STD Tank and 2 standard pumps Allows the circulation of the water on the plant side and includes a second pump installed as a backup to the first. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M2P AM 2P HP1 Tank and 2 high head pumps Allows the circulation of the water on the plant side, ensuring a higher available static head, suitable for high pressure drop plants, and includes a second pump installed as a backup to the first. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M1P PS 2P STD Tank and 1 standard pump (primary and secondary configuration) Allows the circulation of the water on the primary between the tank and the heat exchanger. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. M2P PS 2P STD Tank and 2 standard pumps (primary and secondary configuration) Allows the circulation of the water on the primary between the tank and the heat exchanger and includes a second pump installed as a backup to the first. The thermal inertia of the buffer tank allows to reduce the number of compressor starts and to guarantee a more stable flow temperature. MODULO KIT TUBI CON MODULO KACCESSORIES IT TUBI AND OPTIONAL EQUIPMENT SERBATOIO SENZA SERBATOIO Pipe kit without tank S SFF Pipe kit with tank M M P PP PS S V VS S S SFF M M V VS S P PP PS S A AV V A AV V O OU UTT S SP P O OU UTT S S S SP P S SA A A AV V A AV V IIN N IIN N S SA A S SA A KIT M(1-2)P AM 2P KIT M(1-2)P PS 2P Tank and standard pump Tank and standard pump (primary and secondary configuration) VE VE VS SF M M PPS SF VS AV PPS OUT AV OUT S SP SF SA P VU S SP RM RA SF AV VU P AV IN SA RM S RA IN F F KIT M(1-2)VP S 2P U SP SA SA ITEM AV F M P Standard pump SF M PPS VS UT AV SP SF OUT MODULO KIT TUBI SENZA SEVURBA P TOIO SF PPS RA RM S SA SF SP VE VS VU VE RM M PPFS SA VU VS RA P AV AV IN OUT SP VU DESCRIPTION VICTAULIC CONNECTIONS FILTER GAUGE PUMP PRESSURE SOCKET 1/4" MSAE ODWITH ULO KIT TUBI CORE SUCTION BALL SERVALVE BATOIO DISCHARGE BALL VALVE TANK DRAIN WATER VALVE VS SF M AIR VENT VALVE PPS HEAT EXCHANGER EXPANSION VESSEL SAFETY VALVES CHECK VALVE SP Options AV AV OUT SA IN (standard for IR and BR unit) with external equalizer, this supplies the evaporator correctly, SA keeping the selected overheating degree at a steady level. Electronic (standard for IP and BP unit, optional for IR and BR unit) supplies the evaporator correctly, keeping the selected overheating degree at a more steady level; ensures a faster response to load changes and superior stability which translates into increased efficiency at partial loads. Reduces the compressor start current of about 40%. Compressor power factor correction On-off Electrical protecion load only in case of 2 pumps Thermostatic SA Soft starter Fans control CON AV IN Expansion valve P Allows to reduce the phase shift between the absorbed current and the power supply voltage keeping it above the value of 0,91. (standard for AB unit) the condensation pressure (in cooling) and the evaporation pressure (in heating) is regulated by on-off cycles. Modulating control (condensation / evaporation control) (standard for AS and AX unit, optional for AB unit) The fans rotational speed can be modulated continuosly by an adjusting fan speed device to control the condensation pressure (in cooling) and the evaporation pressure (in heating) in order to extend the operating limits of the unit, to reduce noise emissions and improve energy efficiency. Modulating control (condensation / evaporation control) with EC fans (optional for AB, AS and AX unit) The fans rotational speed can be modulated continuosly by EC fans (Electronic Commutation) to control the condensation pressure (in cooling) and the evaporation pressure (in heating) in order to extend the operating limits of the unit, to reduce noise emissions and maximize energy efficiency. Fuses Allows to protect the electrical loads with fuses. Thermal magnetic Allows to protect the electrical loads with thermal magnetic circuit breakers simplifying the maintenance and reload operations. 13 ACCESSORIES AND OPTIONAL EQUIPMENT Accessories Supplied accessories Rubber vibration dampers Allow to reduce the transmission to the unit support plane of the mechanical vibrations generated by the compressor and by the fans in their normal operating mode, the degree of isolation is about 85% Spring vibration dampers Allow to reduce the transmission to the unit support plane of the mechanical vibrations generated by the compressor and by the fans in their normal operating mode, the degree of isolation is about 90% Water paddle flow switch Allows to detect the water flow lack through the plate heat exchanger and operates as an integration of the protecion offered by the differential pressure switch (standard). Tank antifreeze electrical heater Activated together with the antifreeze electrical heater of the plate heat exchanger, it has the task to keep the still water in the buffer tank at a temperature high enough to avoid ice generation during winter. Remote control It is suitable for wall mounting and reports all the control and visualization functions available on the user interface placed on the unit. It therefore allows the complete remote control of the unit. Programmer clock It allows the unit to be turned on and off according to a set program, through the digital input available on the unit wiring board (remote stand by). Modbus serial interface on RS485 It allows to communicate with the unit controller and to view the operating conditions of the unit through Modbus communication protocol. The RS485 serial line ensures the signal quality up to distances of about 1200 meters (that can be extended by means of proper repeaters). Phase sequence and voltage controller It checks not only the presence and correct order of the power supply phases but also the voltage level on each phase and avoid the unit to operate with voltage levels outside the permitted limits. Factory mounted accessories Victaulic connections This accessory consists of steel pipes that allows the water inlet/outlet to be connected straight inside the unit. Coil protection grilles Protects the external surface of the finned coil. High and low pressure gauges 2 pressure gauges allow visualization of high and low refrigerant gas pressure. Coil shut off valves It consists of two ball valves installed before and after the coil that allow for the pump-down maintenance. Outdoor air sensor External air probe mounted near coil allows smart defrosting, climatic variation of setpoint and reducing the external air temperature below a setpoint. High temperature thermostat Two thermostats in series on compressors outlet pipes preserve operation not allowing temperature to rise up than a specified non adjustable value. Low temperature kit (di serie per unità IP e BP, optional per unità IR e BR) sono costituite da resistenze carter di riscaldamento olio compressori. Tank antifreeze electrical heater Activated together with the antifreeze electrical heater of the plate heat exchanger, it has the task to keep the still water in the buffer tank at a temperature high enough to avoid ice generation during winter. Modbus serial interface on RS485 It allows to communicate with the unit controller and to view the operating conditions of the unit through Modbus communication protocol. The RS485 serial line ensures the signal quality up to distances of about 1200 meters (that can be extended by means of proper repeaters). Phase sequence and voltage controller It checks not only the presence and correct order of the power supply phases but also the voltage level on each phase and avoid the unit to operate with voltage levels outside the permitted limits. ATC Advanced temperature control It consists of a properly calibrated pressure switch that partializes the unit preventing the high pressure alarm. Pressure transducer It consists of a transducer, which allows operation of the control condensation, evaporation and defrost by reading the pressure. Mechanical options Electrical options For finned coils with special treatment (copper fins, tin-copper plated, acrylic, epoxy or hydrophilic painting) please contact our technical department. For other voltages, please contact our technical department 14 enables heat pump stop TECHNICAL DATA - BASE VERSION (VB) Technical data Frame Model Power supply 40.2 50.2 1 60.2 70.2 400 - 3+N - 50 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3 - 50 Refrigerant Type R410A Refrigerant circuit Quantity 1 Compressor Type scroll Quantity 2 Power steps 0 - 50 - 100 Oil charge CP1A 3,3 3,3 3,3 3,3 3,3 3,3 5,3 5,3 5,3 5,3 5,3 5,3 5,3 Oil charge CP1B 3,3 3,3 3,3 3,3 3,3 4,7 5,3 5,3 5,3 5,3 5,3 5,3 5,3 Plant side heat exchanger Type Brazed plates Quantity 1 Water volume 3,2 3,2 3,6 4,6 5,4 4,2 4,8 5,5 5,9 6,9 7,5 8,7 9,7 Source side heat exchanger Type Finned coil Quantity 1 Frontal surface 3,38 4,72 5,90 7,41 Fans Type axial Quantity 2 3 2 3 4 Diameter 630 800 Nominal rotational speed AB 900 Nominal air flow rate AB 20330 20330 29050 28100 27680 41460 40100 38790 47400 62190 59820 82920 79760 Nominal rotational speed AS 750 Nominal air flow rate AS 16950 16950 24210 23420 23070 34550 33420 32330 39540 51830 49850 69100 66470 Nominal rotational speed AX 650 Nominal air flow rate AX 13560 13560 19370 18740 18460 27640 26740 25870 31630 41460 39880 55280 53180 Total installed power 1,2 1,8 3,6 5,4 7,2 Plant side hydraulic circuit Expansion vessel volume 12 24 Expansion vessel precharge 150 Expansion vessel maximum pressure 1000 800 Tank volume 200 400 460 Safety valve set 600 Standard unit F.L.A. Maximum total current input 40,2 45,7 53,3 58,7 69,6 75,5 90,0 97,9 106 123 136 159 170 F.L.I. Maximum total power input 21,6 24,4 28,4 31,0 36,2 44,0 55,0 60,5 66,0 75,7 83,3 95,4 103 Units with primary-secondary pump (option) Type Centrifugal pump F.L.A. Maximum total current input 43,4 48,9 56,5 61,9 72,8 79,2 93,7 102 110 128 141 165 176 F.L.I. Maximum total power input 23,4 26,2 30,2 32,8 38,0 45,8 56,8 62,3 67,8 78,3 85,9 98,9 106 Units with standard pump (option) Type Centrifugal pump F.L.A. Maximum total current input 43,9 49,4 57,0 62,4 73,3 80,0 94,5 102 110 129 142 168 179 F.L.I. Maximum total power input 23,4 26,2 30,2 32,8 38,0 46,6 57,6 63,1 68,6 79,2 86,8 100 107 Units with high head pump (option) Type Centrifugal pump F.L.A. Maximum total current input 46,3 51,8 59,4 64,8 75,7 81,6 96,1 107 115 132 145 169 180 F.L.I. Maximum total power input 25,1 27,9 31,9 34,5 39,7 47,5 58,5 65,1 70,6 80,3 87,9 102 109 Units with modulating standard pump (option) Type Centrifugal pump with inverter F.L.A. Maximum total current input 43,9 49,4 57,0 62,4 73,3 80,0 94,5 102 110 129 142 168 179 F.L.I. Maximum total power input 23,4 26,2 30,2 32,8 38,0 46,6 57,6 63,1 68,6 79,2 86,8 100 107 Units with high head modulating pump (option) Type Centrifugal pump with inverter F.L.A. Maximum total current input 46,3 51,8 59,4 64,8 75,7 81,6 96,1 107 115 132 145 169 180 F.L.I. Maximum total power input 25,1 27,9 31,9 34,5 39,7 47,5 58,5 65,1 70,6 80,3 87,9 102 109 V-ph-Hz n° % l l n° l n° m2 n° mm rpm m3/h rpm m3/h rpm m3/h kW l kPa kPa l kPa A kW A kW A kW A kW A kW A kW 15 TECHNICAL DATA - BASE VERSION (VB) NOMINAL performances - Base setting up (AB) - Standard plants Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) IR Cooling capacity 45,0 53,0 58,1 68,2 78,1 90,3 101 111 125 142 157 179 198 kW Power input 15,7 18,8 20,8 24,1 28,0 32,5 35,9 39,9 45,1 51,5 57,1 64,6 71,6 kW EER 2,87 2,82 2,79 2,83 2,79 2,78 2,81 2,78 2,77 2,76 2,75 2,77 2,77 - Water flow rate plant side 2,16 2,56 2,80 3,29 3,76 4,35 4,87 5,35 6,02 6,83 7,55 8,60 9,56 l/h Pressure drops plant side 40 56 55 51 50 48 46 44 48 47 48 48 50 kPa Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) Cooling capacity 43,5 52,4 57,0 66,7 73,6 88,5 98 109 121 137 153 177 196 kW Power input 15,5 19,0 20,7 24,1 27,0 32,3 35,7 39,8 44,5 50,3 56,3 63,5 71,2 kW EER 2,81 2,76 2,75 2,77 2,73 2,74 2,75 2,74 2,72 2,72 2,72 2,79 2,75 - Water flow rate plant side 2,09 2,53 2,75 3,21 3,54 4,26 4,73 5,26 5,83 6,59 7,36 8,50 9,46 l/h Pressure drops plant side 37 55 53 49 44 46 43 43 45 44 46 47 49 kPa Heating A7W45 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 40°C out 45°C ) IP Heating capacity 48,1 58,1 63,2 74,5 83,0 99,6 110 125 136 154 173 197 216 kW Power input 15,6 19,1 20,9 24,4 27,6 33,5 35,9 41,1 44,9 51,8 56,9 65,1 71,7 kW COP 3,08 3,04 3,02 3,05 3,01 2,97 3,06 3,04 3,03 2,97 3,04 3,03 3,01 - Water flow rate plant side 2,28 2,75 2,99 3,53 3,93 4,72 5,21 5,92 6,45 7,31 8,17 9,32 10,2 l/h Pressure drops plant side 45 65 63 59 55 57 53 54 55 54 56 56 57 kPa Heating A2W45 ( source : air in 2°C d.b. 1°C w.b. / plant : water in 40°C out 45°C ) Heating capacity 41,2 49,6 54,1 63,7 71,0 85,2 94,0 107 116 132 148 168 185 kW Power input 15,5 18,8 20,6 24,1 27,2 33,1 35,5 40,5 44,3 51,1 56,2 64,3 70,9 kW COP 2,66 2,64 2,63 2,64 2,61 2,57 2,65 2,64 2,62 2,58 2,63 2,61 2,61 - Water flow rate plant side 2,17 2,61 2,84 3,35 3,74 4,48 4,95 5,63 6,13 6,95 7,76 8,85 9,71 l/h Pressure drops plant side 40 58 57 53 49 51 48 49 50 49 51 51 52 kPa Data declared according to EN 14511. The values are referred to units without options and accessories. NOMINAL performances - Base setting up (AB) - Standard plants - Data certified by EUROVENT Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) IR Cooling capacity 45,3 53,5 58,6 68,8 78,7 91,0 102 112 126 143 158 180 200 kW EER 2,94 2,92 2,89 2,93 2,87 2,86 2,90 2,86 2,86 2,84 2,83 2,85 2,86 - Water flow rate plant side ESEER 40 56 55 51 50 48 46 44 48 47 48 48 50 kPa 4,18 4,15 4,10 4,16 4,08 4,18 4,11 4,18 4,06 4,14 4,01 4,04 4,06 - kW Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) Cooling capacity 43,8 52,9 57,5 67,2 74,1 89,2 99,0 110 122 138 154 178 198 EER 2,88 2,86 2,85 2,85 2,80 2,82 2,83 2,82 2,80 2,80 2,79 2,86 2,84 - 37 55 53 49 44 46 43 43 45 44 46 47 49 kPa 4,09 4,06 4,04 4,04 3,97 4,12 4,02 4,12 3,97 4,09 3,96 4,06 4,03 kW Water flow rate plant side IP ESEER Heating A7W45 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 40°C out 45°C ) Heating capacity 47,8 57,5 62,6 73,8 82,3 98,7 109 124 135 153 171 195 214 COP 3,12 3,11 3,08 3,11 3,06 3,03 3,11 3,10 3,09 3,03 3,09 3,08 3,07 - 45 65 63 59 55 57 53 54 55 54 56 56 57 kPa Water flow rate plant side 16 TECHNICAL DATA - BASE VERSION (VB) NOMINAL performances - Base setting up (AB) - Radiant plants Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W18 ( source : air in 35°C d.b. / plant : water in 23°C out 18°C ) IR Cooling capacity 58,3 68,5 75,1 88,2 100,6 116 131 144 162 184 202 231 257 kW Power input 17,1 20,8 22,9 26,4 30,8 35,6 39,4 43,6 49,4 56,4 62,5 70,7 78,5 kW EER 3,41 3,29 3,28 3,34 3,27 3,26 3,32 3,30 3,28 3,26 3,23 3,27 3,27 - Water flow rate plant side 2,81 3,33 3,64 4,27 4,87 5,64 6,35 6,98 7,84 8,89 9,8 11,2 12,4 l/h Pressure drops plant side 68 95 93 86 84 81 78 75 81 80 81 81 84 kPa Cooling A35W18 ( source : air in 35°C d.b. / plant : water in 23°C out 18°C ) Cooling capacity 56,3 67,8 73,7 86,3 95,2 115 127 141 157 177 198 228 254 kW Power input 16,9 20,9 22,8 26,4 29,7 35,2 39,0 43,4 48,8 54,9 61,7 69,5 78,1 kW EER 3,33 3,24 3,23 3,27 3,21 3,27 3,26 3,25 3,22 3,22 3,21 3,28 3,25 - Water flow rate plant side 2,72 3,29 3,57 4,18 4,60 5,54 6,16 6,83 7,60 8,55 9,56 11,0 12,3 l/h Pressure drops plant side 63 92 89 82 75 78 74 72 77 74 77 79 83 kPa Heating A7W35 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 30°C out 35°C ) IP Heating capacity 51,1 61,7 67,1 79,0 88,0 106 117 132 144 164 183 209 229 kW Power input 12,9 15,7 17,3 20,1 22,7 27,9 29,8 34,0 37,1 43,0 47,2 54,3 59,6 kW COP 3,96 3,93 3,88 3,93 3,88 3,80 3,93 3,88 3,88 3,81 3,88 3,85 3,84 - Water flow rate plant side 2,42 2,91 3,17 3,74 4,17 5,02 5,54 6,26 6,83 7,74 8,65 9,89 10,8 l/h Pressure drops plant side 50 72 70 66 61 64 60 60 62 60 63 63 64 kPa Heating A2W35 ( source : air in 2°C d.b. 1°C w.b. / plant : water in 30°C out 35°C ) Heating capacity 43,6 52,7 57,3 67,6 75,3 90,4 100 114 124 140 156 178 195 kW Power input 12,7 15,5 17,1 19,8 22,4 27,5 29,4 33,5 36,6 42,4 46,6 53,5 58,8 kW COP 3,43 3,40 3,35 3,41 3,36 3,29 3,40 3,40 3,39 3,30 3,35 3,33 3,32 - Water flow rate plant side 2,30 2,77 3,01 3,55 3,96 4,75 5,26 5,97 6,50 7,36 8,22 9,36 10,3 l/h Pressure drops plant side 45 66 64 59 55 57 54 55 56 55 57 57 58 kPa Data declared according to EN 14511. The values are referred to units without options and accessories. 17 TECHNICAL DATA - BASE VERSION (VB) NOMINAL performances - Low noise setting up (AS) - Standard plants Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) IR Cooling capacity 43,6 51,5 56,3 66,2 75,7 87,6 97,8 108 121 138 152 174 193 kW Power input 16,3 19,4 21,6 24,9 29,2 33,7 37,3 41,4 46,8 53,4 59,2 67,0 74,3 kW EER 2,67 2,65 2,61 2,66 2,59 2,60 2,62 2,61 2,59 2,58 2,57 2,60 2,60 - Water flow rate plant side 2,10 2,48 2,71 3,19 3,65 4,21 4,71 5,21 5,83 6,64 7,31 8,36 9,27 l/h Pressure drops plant side 38 53 52 48 47 45 43 42 45 44 45 45 47 kPa Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) Cooling capacity 41,8 50,4 54,8 64,0 70,6 85,0 94,4 105 116 131 147 170 189 kW Power input 16,0 20,0 21,8 25,5 28,6 34,1 37,7 42,0 47,0 53,1 59,5 67,1 75,3 kW EER 2,61 2,52 2,51 2,51 2,47 2,49 2,50 2,50 2,47 2,47 2,47 2,53 2,51 - Water flow rate plant side 2,01 2,43 2,64 3,08 3,40 4,09 4,54 5,06 5,59 6,31 7,07 8,17 9,08 l/h Pressure drops plant side 35 50 49 45 41 42 40 39 41 40 42 43 45 kPa Heating A7W45 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 40°C out 45°C ) IP Heating capacity 46,9 56,5 61,7 72,5 80,9 97,0 107 122 133 150 168 192 211 kW Power input 14,9 18,2 20,0 23,2 26,4 31,9 34,2 39,2 42,8 49,4 54,3 62,1 68,5 kW COP 3,15 3,10 3,09 3,13 3,06 3,04 3,13 3,11 3,11 3,04 3,09 3,09 3,08 - Water flow rate plant side 2,23 2,68 2,92 3,44 3,83 4,60 5,06 5,78 6,31 7,12 7,98 9,08 9,99 l/h Pressure drops plant side 43 61 60 56 52 54 50 51 53 51 54 54 55 kPa Heating A2W45 ( source : air in 2°C d.b. 1°C w.b. / plant : water in 40°C out 45°C ) Heating capacity 41,2 49,6 54,1 63,7 71,0 85,2 94,4 107 116 132 147 168 184 kW Power input 15,1 18,5 20,1 23,5 26,7 32,0 34,4 39,5 43,2 49,5 54,6 62,2 68,7 kW COP 2,73 2,68 2,69 2,71 2,66 2,66 2,74 2,71 2,69 2,67 2,69 2,70 2,68 - Water flow rate plant side 2,17 2,61 2,84 3,35 3,74 4,48 4,97 5,64 6,12 6,93 7,74 8,84 9,70 l/h Pressure drops plant side 40 58 57 53 49 51 48 49 50 48 50 51 51 kPa Data declared according to EN 14511. The values are referred to units without options and accessories. NOMINAL performances - Low noise setting up (AS) - Standard plants - Data certified by EUROVENT Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) IR Cooling capacity 43,9 51,9 56,8 66,7 76,3 88,2 98,5 109 122 139 153 175 194 kW EER 2,74 2,73 2,69 2,73 2,67 2,66 2,69 2,68 2,66 2,65 2,63 2,66 2,66 - Water flow rate plant side ESEER 38 53 52 48 47 45 43 42 45 44 45 45 47 kPa 4,05 4,03 3,98 4,04 3,94 4,05 3,97 4,07 3,93 4,03 3,89 3,93 3,94 - kW Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) Cooling capacity 42,0 50,8 55,2 64,5 71,1 85,6 95,0 106 117 132 148 171 190 EER 2,66 2,59 2,58 2,58 2,53 2,56 2,56 2,57 2,53 2,52 2,53 2,59 2,57 - 35 50 49 45 41 42 40 39 41 40 42 43 45 kPa 3,93 3,83 3,81 3,81 3,74 3,88 3,78 3,90 3,74 3,83 3,74 3,83 3,80 kW Water flow rate plant side IP ESEER Heating A7W45 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 40°C out 45°C ) Heating capacity 46,6 56,0 61,1 71,9 80,2 96,2 106 121 132 149 167 190 209 COP 3,19 3,16 3,15 3,18 3,12 3,09 3,17 3,17 3,17 3,09 3,16 3,14 3,13 - 43 61 60 56 52 54 50 51 53 51 54 54 55 kPa Water flow rate plant side 18 TECHNICAL DATA - BASE VERSION (VB) NOMINAL performances - Low noise setting up (AS) - Radiant plants Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W18 ( source : air in 35°C d.b. / plant : water in 23°C out 18°C ) IR Cooling capacity 56,5 66,5 72,8 85,6 97,9 114 127 140 157 179 197 225 249 kW Power input 17,9 21,5 23,6 27,3 32,0 37,0 40,8 45,4 51,3 58,5 64,8 73,4 81,5 kW EER 3,16 3,09 3,08 3,14 3,06 3,08 3,11 3,08 3,06 3,06 3,04 3,07 3,06 - Water flow rate plant side 2,73 3,23 3,53 4,14 4,74 5,49 6,12 6,78 7,60 8,65 9,51 10,9 12,0 l/h Pressure drops plant side 64 89 87 81 79 76 73 71 77 75 76 77 79 kPa Cooling A35W18 ( source : air in 35°C d.b. / plant : water in 23°C out 18°C ) Cooling capacity 54,1 65,1 70,9 82,9 91,4 110 123 137 150 170 190 219 244 kW Power input 17,5 22,0 23,9 27,9 31,2 37,3 41,2 45,9 51,4 58,1 65,1 73,4 82,5 kW EER 3,09 2,96 2,97 2,97 2,93 2,95 2,99 2,98 2,92 2,93 2,92 2,98 2,96 - Water flow rate plant side 2,61 3,15 3,43 4,01 4,41 5,30 5,92 6,59 7,26 8,22 9,17 10,6 11,8 l/h Pressure drops plant side 58 85 83 76 69 71 68 67 70 68 71 73 76 kPa Heating A7W35 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 30°C out 35°C ) IP Heating capacity 49,8 60,1 65,5 77,0 85,8 103 113 129 141 159 179 203 224 kW Power input 12,3 15,1 16,4 19,1 21,6 26,4 28,2 32,3 35,2 40,7 44,8 51,3 56,6 kW COP 4,05 3,98 3,99 4,03 3,97 3,90 4,01 3,99 4,01 3,91 4,00 3,96 3,96 - Water flow rate plant side 2,36 2,84 3,10 3,64 4,06 4,87 5,35 6,12 6,69 7,55 8,46 9,60 10,6 l/h Pressure drops plant side 48 69 67 62 58 60 56 58 59 57 60 60 61 kPa Heating A2W35 ( source : air in 2°C d.b. 1°C w.b. / plant : water in 30°C out 35°C ) Heating capacity 43,6 52,7 57,3 67,6 75,3 90,4 99,9 114 124 140 156 178 195 kW Power input 12,3 15,1 16,5 19,3 21,8 26,4 28,3 32,4 35,5 40,8 45,0 51,4 56,6 kW COP 3,54 3,49 3,47 3,50 3,45 3,42 3,53 3,52 3,49 3,43 3,47 3,46 3,45 - Water flow rate plant side 2,30 2,77 3,01 3,55 3,96 4,75 5,26 5,97 6,50 7,36 8,22 9,36 10,3 l/h Pressure drops plant side 45 66 64 59 55 57 54 55 56 55 57 57 58 kPa Data declared according to EN 14511. The values are referred to units without options and accessories. 19 TECHNICAL DATA - BASE VERSION (VB) NOMINAL performances - Exta low noise setting up (AX) - Standard plants Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) IR Cooling capacity 42,7 50,3 55,1 64,7 74,0 85,6 95,6 105 118 134 149 169 188 kW Power input 16,3 19,8 22,1 25,4 29,9 32,8 38,3 42,6 48,1 54,3 60,3 68,8 76,2 kW EER 2,62 2,54 2,49 2,55 2,47 2,61 2,50 2,46 2,45 2,47 2,47 2,46 2,47 - Water flow rate plant side 2,05 2,42 2,65 3,12 3,56 4,12 4,60 5,06 5,69 6,45 7,17 8,12 9,03 l/h Pressure drops plant side 36 50 49 46 45 43 41 39 43 42 43 43 45 kPa Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) Cooling capacity 41,0 49,3 53,7 62,8 69,3 83,3 92,5 102 114 129 144 166 185 kW Power input 17,1 21,1 23,0 26,8 30,1 35,9 39,8 44,3 49,5 56,0 62,7 70,8 79,4 kW EER 2,40 2,34 2,33 2,34 2,30 2,32 2,32 2,30 2,30 2,30 2,30 2,34 2,33 - Water flow rate plant side 1,97 2,37 2,58 3,02 3,33 4,00 4,45 4,92 5,49 6,21 6,93 7,98 8,89 l/h Pressure drops plant side 33 48 47 43 39 41 38 37 40 39 40 41 43 kPa Heating A7W45 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 40°C out 45°C ) IP Heating capacity 45,2 54,5 59,4 70,0 78,0 93,5 104 118 128 145 162 184 203 kW Power input 14,2 17,3 19,0 22,2 25,1 30,4 32,7 37,3 40,8 47,1 51,7 59,1 65,1 kW COP 3,18 3,15 3,13 3,15 3,11 3,08 3,18 3,16 3,14 3,08 3,13 3,11 3,12 - Water flow rate plant side 2,15 2,58 2,81 3,32 3,70 4,43 4,92 5,59 6,07 6,88 7,69 8,74 9,60 l/h Pressure drops plant side 40 57 55 52 48 50 47 48 49 48 50 50 50 kPa Heating A2W45 ( source : air in 2°C d.b. 1°C w.b. / plant : water in 40°C out 45°C ) Heating capacity 42,4 51,2 55,8 65,6 73,1 87,8 97,2 110 120 136 152 174 190 kW Power input 15,1 18,6 20,2 23,6 26,9 32,0 34,5 39,6 43,4 49,5 54,6 62,1 68,7 kW COP 2,81 2,75 2,76 2,78 2,72 2,74 2,82 2,78 2,76 2,75 2,78 2,80 2,77 - Water flow rate plant side 2,24 2,69 2,93 3,45 3,85 4,62 5,11 5,78 6,31 7,17 7,98 9,13 9,99 l/h Pressure drops plant side 43 62 60 56 52 54 51 51 53 52 54 54 55 kPa Data declared according to EN 14511. The values are referred to units without options and accessories. NOMINAL performances - Exta low noise setting up (AX) - Standard plants - Data certified by EUROVENT Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) IR Cooling capacity 42,9 50,7 55,5 65,2 74,5 86,2 96,2 106 119 135 150 170 189 kW EER 2,66 2,61 2,56 2,62 2,53 2,68 2,55 2,53 2,52 2,53 2,53 2,51 2,52 - Water flow rate plant side ESEER 36 50 49 46 45 43 41 39 43 42 43 43 45 kPa 4,21 4,13 4,04 4,14 4,00 4,35 4,03 4,11 3,98 4,11 4,00 3,97 3,99 - kW Cooling A35W7 ( source : air in 35°C d.b. / plant : water in 12°C out 7°C ) Cooling capacity 41,2 49,7 54,1 63,2 69,7 83,8 93,1 103 115 130 145 167 186 EER 2,44 2,40 2,39 2,39 2,35 2,37 2,38 2,36 2,36 2,36 2,35 2,40 2,38 - 33 48 47 43 39 41 38 37 40 39 40 41 43 kPa 3,85 3,79 3,78 3,78 3,71 3,85 3,75 3,83 3,72 3,83 3,71 3,79 3,76 kW Water flow rate plant side IP ESEER Heating A7W45 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 40°C out 45°C ) Heating capacity 44,9 54,0 58,9 69,4 77,4 92,8 103 117 127 144 161 183 201 COP 3,23 3,21 3,18 3,21 3,16 3,12 3,23 3,21 3,19 3,13 3,19 3,17 3,17 - 40 57 55 52 48 50 47 48 49 48 50 50 50 kPa Water flow rate plant side 20 TECHNICAL DATA - BASE VERSION (VB) NOMINAL performances - Extra low noise setting up (AX) - Radiant plants Frame Model Power supply 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 400 - 3+N - 50 400 - 3 - 50 V-ph-Hz Cooling A35W18 ( source : air in 35°C d.b. / plant : water in 23°C out 18°C ) IR Cooling capacity 55,3 65,0 71,2 83,8 95,7 111 124 137 153 174 193 218 243 kW Power input 17,9 21,8 24,3 27,8 32,8 35,9 41,9 46,5 52,7 59,5 66,1 75,3 83,6 kW EER 3,09 2,98 2,93 3,01 2,92 3,09 2,96 2,95 2,90 2,92 2,92 2,90 2,91 - Water flow rate plant side 2,67 3,15 3,45 4,05 4,63 5,35 5,97 6,59 7,41 8,41 9,32 10,6 11,8 l/h Pressure drops plant side 61 85 83 77 76 73 69 67 73 71 73 73 76 kPa Cooling A35W18 ( source : air in 35°C d.b. / plant : water in 23°C out 18°C ) Cooling capacity 53,1 63,8 69,4 81,2 89,6 108 120 133 148 167 187 215 239 kW Power input 18,7 23,1 25,2 29,4 33,0 39,2 43,3 48,3 54,1 61,2 68,6 77,4 86,8 kW EER 2,84 2,76 2,75 2,76 2,72 2,76 2,77 2,75 2,74 2,73 2,73 2,78 2,75 - Water flow rate plant side 2,56 3,09 3,36 3,93 4,33 5,21 5,78 6,40 7,17 8,07 9,03 10,4 11,6 l/h Pressure drops plant side 56 82 79 73 66 69 65 63 68 66 69 70 74 kPa Heating A7W35 ( source : air in 7°C d.b. 6°C w.b. / plant : water in 30°C out 35°C ) IP Heating capacity 47,9 57,8 63,0 74,3 82,7 99,3 110 125 136 154 173 196 215 kW Power input 11,6 14,2 15,6 18,2 20,5 25,1 26,8 30,6 33,4 38,8 42,5 48,7 53,6 kW COP 4,13 4,07 4,04 4,08 4,03 3,96 4,10 4,08 4,07 3,97 4,07 4,02 4,01 - Water flow rate plant side 2,27 2,73 2,98 3,52 3,92 4,70 5,21 5,92 6,45 7,31 8,17 9,27 10,2 l/h Pressure drops plant side 44 64 62 58 54 56 53 54 55 54 56 56 57 kPa Heating A2W35 ( source : air in 2°C d.b. 1°C w.b. / plant : water in 30°C out 35°C ) Heating capacity 45,0 54,3 59,1 69,6 77,7 92,8 103 117 127 145 161 184 202 kW Power input 12,4 15,3 16,6 19,4 22,0 26,4 28,3 32,5 35,5 40,8 44,9 51,2 56,6 kW COP 3,63 3,55 3,56 3,59 3,53 3,52 3,64 3,60 3,58 3,55 3,59 3,59 3,57 - Water flow rate plant side 2,37 2,85 3,10 3,66 4,08 4,87 5,40 6,16 6,69 7,60 8,46 9,65 10,6 l/h Pressure drops plant side 48 69 67 63 59 60 57 58 59 58 60 60 61 kPa Data declared according to EN 14511. The values are referred to units without options and accessories. 21 TECHNICAL DATA - BASE VERSION (VB) Standard performances in cooling mode IR - Base setting up AB Mod. 40.2 ÷ 100.2 MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 50 (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 51,4 52,9 54,4 55,8 57,3 58,8 60,3 61,8 60,7 62,4 64,2 66,0 67,7 69,5 71,2 73,0 66,5 68,4 70,3 72,2 74,2 76,1 78,0 79,9 78,1 80,3 82,6 84,8 87,1 89,3 91,6 93,8 89,3 91,9 94,4 97,0 99,6 102 105 107 103 106 109 112 115 118 121 124 116 119 122 126 129 132 136 139 9,8 9,9 9,9 10,0 10,1 10,2 10,2 10,3 11,8 11,9 12,0 12,1 12,1 12,2 12,3 12,4 12,8 12,9 13,0 13,0 13,1 13,2 13,3 13,4 15,0 15,1 15,2 15,3 15,4 15,5 15,6 15,7 17,7 17,8 17,9 18,1 18,2 18,3 18,4 18,6 19,5 19,6 19,7 19,9 20,0 20,2 20,3 20,5 21,8 22,0 22,1 22,3 22,4 22,6 22,8 22,9 48,5 49,9 51,3 52,7 54,1 55,5 56,9 58,3 57,3 59,0 60,6 62,3 63,9 65,6 67,2 68,9 62,8 64,6 66,4 68,2 70,0 71,8 73,6 75,4 73,7 75,8 78,0 80,1 82,2 84,3 86,5 88,6 84,3 86,7 89,2 91,6 94,0 96,5 98,9 101 97,5 100 103 106 109 112 114 117 109 112 116 119 122 125 128 131 11,2 11,3 11,4 11,4 11,5 11,6 11,7 11,8 13,5 13,6 13,7 13,8 13,9 14,0 14,1 14,2 14,6 14,7 14,8 14,9 15,0 15,1 15,2 15,3 17,1 17,2 17,4 17,5 17,6 17,7 17,9 18,0 20,2 20,3 20,5 20,6 20,8 20,9 21,1 21,2 22,2 22,4 22,6 22,7 22,9 23,1 23,2 23,4 24,9 25,1 25,3 25,5 25,6 25,8 26,0 26,2 45,7 47,0 48,3 49,7 51,0 52,3 53,6 54,9 54,0 55,5 57,1 58,6 60,2 61,8 63,3 64,9 59,1 60,8 62,5 64,2 65,9 67,6 69,3 71,1 69,4 71,4 73,4 75,4 77,4 79,4 81,4 83,4 79,4 81,7 84,0 86,3 88,6 90,8 93,1 95,4 91,8 94,4 97,1 99,7 102 105 108 110 103 106 109 112 115 118 121 124 12,6 12,7 12,8 12,9 13,0 13,1 13,2 13,2 15,2 15,3 15,4 15,5 15,6 15,7 15,8 15,9 16,4 16,5 16,7 16,8 16,9 17,0 17,1 17,3 19,2 19,4 19,5 19,7 19,8 20,0 20,1 20,2 22,7 22,9 23,0 23,2 23,4 23,5 23,7 23,9 25,0 25,2 25,4 25,6 25,7 25,9 26,1 26,3 28,0 28,2 28,4 28,6 28,9 29,1 29,3 29,5 42,8 44,1 45,3 46,5 47,8 49,0 50,2 51,5 50,6 52,0 53,5 55,0 56,4 57,9 59,3 60,8 55,4 57,0 58,6 60,2 61,8 63,4 65,0 66,6 65,0 66,9 68,8 70,7 72,6 74,4 76,3 78,2 74,4 76,6 78,7 80,8 83,0 85,1 87,3 89,4 86,0 88,5 91,0 93,5 96,0 98,4 101 103 96,4 99,2 102 105 108 110 113 116 14,0 14,1 14,2 14,3 14,4 14,5 14,6 14,7 16,9 17,0 17,1 17,2 17,3 17,5 17,6 17,7 18,2 18,4 18,5 18,6 18,8 18,9 19,0 19,2 21,4 21,5 21,7 21,9 22,0 22,2 22,3 22,5 25,2 25,4 25,6 25,8 26,0 26,2 26,3 26,5 27,8 28,0 28,2 28,4 28,6 28,8 29,0 29,2 31,1 31,4 31,6 31,8 32,1 32,3 32,5 32,7 40,0 41,1 42,3 43,4 44,6 45,7 46,9 48,0 47,2 48,6 49,9 51,3 52,6 54,0 55,4 56,7 51,7 53,2 54,7 56,2 57,7 59,1 60,6 62,1 60,7 62,4 64,2 65,9 67,7 69,4 71,2 72,9 69,4 71,4 73,4 75,4 77,4 79,4 81,4 83,4 80,3 82,6 84,9 87,2 89,5 91,8 94,2 96,5 90,0 92,6 95,2 97,8 100 103 106 108 15,4 15,5 15,6 15,7 15,8 16,0 16,1 16,2 18,5 18,7 18,8 18,9 19,1 19,2 19,4 19,5 20,1 20,2 20,4 20,5 20,6 20,8 20,9 21,1 23,5 23,7 23,9 24,0 24,2 24,4 24,6 24,7 27,8 28,0 28,2 28,4 28,6 28,8 29,0 29,2 30,6 30,8 31,0 31,2 31,5 31,7 31,9 32,1 34,3 34,5 34,8 35,0 35,3 35,5 35,8 36,0 37,1 38,2 39,3 40,3 41,4 42,5 43,6 44,6 43,9 45,1 46,4 47,6 48,9 50,2 51,4 52,7 48,0 49,4 50,8 52,2 53,6 55,0 56,3 57,7 56,4 58,0 59,6 61,3 62,9 64,5 66,2 67,8 64,5 66,4 68,2 70,1 72,0 73,8 75,7 77,5 74,6 76,7 78,9 81,0 83,2 85,4 87,5 89,7 83,6 86,0 88,4 90,8 93,3 95,7 98,1 100 16,8 16,9 17,0 17,2 17,3 17,4 17,5 17,7 20,2 20,4 20,5 20,7 20,8 21,0 21,1 21,3 21,9 22,0 22,2 22,4 22,5 22,7 22,8 23,0 25,7 25,9 26,0 26,2 26,4 26,6 26,8 27,0 30,3 30,5 30,7 30,9 31,2 31,4 31,6 31,8 33,3 33,6 33,8 34,1 34,3 34,6 34,8 35,1 37,4 37,6 37,9 38,2 38,5 38,7 39,0 39,3 34,3 35,3 36,2 40,5 41,6 42,8 44,3 45,6 46,9 52,0 53,5 55,0 59,5 61,2 63,0 68,8 70,8 72,8 77,1 79,4 81,6 - 18,2 18,3 18,5 21,9 22,1 22,2 23,7 23,9 24,1 27,8 28,0 28,2 32,8 33,0 33,3 36,1 36,4 36,7 40,5 40,8 41,1 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 22 TECHNICAL DATA - BASE VERSION (VB) Mod. 115.2 ÷ 200.2 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 50 (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 127 131 134 138 142 145 149 153 143 147 151 155 159 164 168 172 162 167 172 176 181 186 190 195 179 184 190 195 200 205 210 215 204 210 216 222 228 234 240 245 227 233 240 247 253 260 266 273 24,5 24,7 24,9 25,0 25,2 25,4 25,6 25,8 27,9 28,1 28,4 28,6 28,8 29,0 29,2 29,4 31,0 31,3 31,5 31,7 32,0 32,2 32,4 32,6 34,8 35,1 35,4 35,6 35,9 36,1 36,4 36,6 38,6 38,9 39,2 39,5 39,8 40,1 40,3 40,6 43,3 43,6 44,0 44,3 44,6 44,9 45,2 45,6 120 123 127 130 134 137 141 144 135 139 143 147 151 154 158 162 153 158 162 166 171 175 180 184 169 174 179 184 189 194 199 203 193 198 204 210 215 221 226 232 214 220 227 233 239 245 251 258 28,0 28,2 28,4 28,6 28,8 29,0 29,2 29,4 31,9 32,2 32,4 32,6 32,9 33,1 33,3 33,6 35,5 35,7 36,0 36,3 36,5 36,8 37,0 37,3 39,8 40,1 40,4 40,7 41,0 41,3 41,6 41,9 44,1 44,5 44,8 45,1 45,5 45,8 46,1 46,4 49,5 49,9 50,2 50,6 51,0 51,3 51,7 52,1 113 116 120 123 126 129 133 136 127 131 134 138 142 145 149 153 144 148 153 157 161 165 169 173 159 164 169 173 178 182 187 192 182 187 192 197 203 208 213 218 202 208 213 219 225 231 237 243 31,5 31,7 32,0 32,2 32,4 32,6 32,9 33,1 35,9 36,2 36,5 36,7 37,0 37,2 37,5 37,8 39,9 40,2 40,5 40,8 41,1 41,4 41,7 42,0 44,8 45,1 45,5 45,8 46,1 46,4 46,8 47,1 49,7 50,0 50,4 50,8 51,1 51,5 51,9 52,2 55,7 56,1 56,5 56,9 57,3 57,8 58,2 58,6 106 109 112 115 118 121 124 127 119 123 126 129 133 136 140 143 135 139 143 147 151 155 159 163 149 154 158 162 167 171 175 180 170 175 180 185 190 195 200 205 189 195 200 205 211 216 222 227 35,0 35,2 35,5 35,8 36,0 36,3 36,5 36,8 39,9 40,2 40,5 40,8 41,1 41,4 41,7 42,0 44,3 44,7 45,0 45,3 45,7 46,0 46,3 46,6 49,8 50,1 50,5 50,9 51,2 51,6 52,0 52,3 55,2 55,6 56,0 56,4 56,8 57,2 57,6 58,0 61,9 62,3 62,8 63,3 63,7 64,2 64,6 65,1 98,8 102 104 107 110 113 116 119 111 114 118 121 124 127 130 134 126 130 133 137 141 144 148 152 139 143 147 151 155 159 163 168 159 163 168 173 177 182 186 191 176 182 187 192 197 202 207 212 38,5 38,8 39,1 39,3 39,6 39,9 40,2 40,5 43,9 44,2 44,6 44,9 45,2 45,5 45,8 46,2 48,8 49,1 49,5 49,9 50,2 50,6 50,9 51,3 54,7 55,1 55,6 56,0 56,4 56,8 57,2 57,6 60,7 61,2 61,6 62,0 62,5 62,9 63,4 63,8 68,1 68,6 69,1 69,6 70,1 70,6 71,1 71,6 91,8 94,5 97,1 99,8 102 105 108 110 103 106 109 112 115 118 121 124 117 121 124 127 131 134 138 141 130 133 137 141 144 148 152 156 148 152 156 160 165 169 173 177 164 169 173 178 183 188 192 197 42,0 42,3 42,6 42,9 43,2 43,5 43,8 44,1 47,9 48,2 48,6 49,0 49,3 49,7 50,0 50,4 53,2 53,6 54,0 54,4 54,8 55,2 55,6 56,0 59,7 60,2 60,6 61,0 61,5 61,9 62,4 62,8 66,2 66,7 67,2 67,7 68,2 68,7 69,2 69,6 74,3 74,8 75,4 75,9 76,5 77,0 77,6 78,1 84,7 87,2 89,6 95,3 98,1 101 108 111 114 120 123 126 136 140 144 151 156 160 - 45,5 45,8 46,2 51,9 52,3 52,7 57,6 58,1 58,5 64,7 65,2 65,7 71,7 72,3 72,8 80,5 81,0 81,6 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 23 TECHNICAL DATA - BASE VERSION (VB) Standard performances in cooling mode IR - Low noise setting up (AS) Mod. 40.2 ÷ 100.2 MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 49,8 51,2 52,7 54,1 55,6 57,0 58,4 59,9 58,9 60,6 62,3 64,0 65,7 67,4 69,1 70,8 64,4 66,3 68,2 70,0 71,9 73,7 75,6 77,5 75,7 77,9 80,0 82,2 84,4 86,6 88,8 91,0 86,6 89,1 91,6 94,1 96,6 99,1 102 104 100 103 106 109 112 114 117 120 112 115 118 121 125 128 131 134 10,5 10,6 10,6 10,7 10,8 10,9 10,9 11,0 12,6 12,6 12,7 12,8 12,9 13,0 13,1 13,2 13,7 13,8 13,9 14,0 14,1 14,2 14,3 14,4 15,9 16,1 16,2 16,3 16,4 16,5 16,6 16,8 18,8 19,0 19,1 19,2 19,4 19,5 19,7 19,8 21,1 21,3 21,4 21,6 21,7 21,9 22,0 22,2 23,5 23,7 23,9 24,0 24,2 24,4 24,6 24,7 47,0 48,4 49,7 51,1 52,5 53,8 55,2 56,5 55,6 57,2 58,8 60,4 62,0 63,6 65,2 66,8 60,8 62,6 64,4 66,1 67,9 69,6 71,4 73,1 71,4 73,5 75,6 77,6 79,7 81,8 83,8 85,9 81,7 84,1 86,4 88,8 91,2 93,5 95,9 98,2 94,5 97,2 99,9 103 105 108 111 114 106 109 112 115 118 121 124 127 12,0 12,1 12,2 12,2 12,3 12,4 12,5 12,6 14,3 14,5 14,6 14,7 14,8 14,9 15,0 15,1 15,6 15,7 15,8 16,0 16,1 16,2 16,3 16,4 18,2 18,3 18,5 18,6 18,7 18,9 19,0 19,2 21,5 21,7 21,8 22,0 22,2 22,3 22,5 22,6 24,1 24,3 24,5 24,7 24,8 25,0 25,2 25,4 26,9 27,1 27,3 27,5 27,7 27,9 28,1 28,3 44,3 45,6 46,8 48,1 49,4 50,7 52,0 53,2 52,4 53,9 55,4 56,9 58,4 59,9 61,4 62,9 57,3 59,0 60,6 62,3 63,9 65,6 67,2 68,9 67,3 69,2 71,2 73,1 75,1 77,0 78,9 80,9 77,0 79,2 81,4 83,6 85,9 88,1 90,3 92,5 89,0 91,5 94,1 96,7 99,2 102 104 107 99,4 102 105 108 111 114 117 119 13,5 13,6 13,7 13,8 13,9 14,0 14,1 14,2 16,1 16,3 16,4 16,5 16,6 16,7 16,9 17,0 17,6 17,7 17,8 17,9 18,1 18,2 18,3 18,5 20,5 20,6 20,8 20,9 21,1 21,2 21,4 21,5 24,2 24,4 24,6 24,7 24,9 25,1 25,3 25,5 27,1 27,3 27,5 27,7 27,9 28,1 28,3 28,5 30,2 30,5 30,7 30,9 31,1 31,4 31,6 31,8 41,5 42,7 43,9 45,1 46,3 47,5 48,7 49,9 49,1 50,5 51,9 53,3 54,7 56,1 57,6 59,0 53,7 55,3 56,8 58,3 59,9 61,4 63,0 64,5 63,1 64,9 66,7 68,5 70,3 72,2 74,0 75,8 72,1 74,2 76,3 78,4 80,5 82,5 84,6 86,7 83,4 85,8 88,2 90,6 93,0 95,4 97,8 100 93,1 95,8 98,5 101 104 107 109 112 15,0 15,1 15,2 15,3 15,4 15,5 15,6 15,8 17,9 18,1 18,2 18,3 18,5 18,6 18,7 18,9 19,5 19,7 19,8 19,9 20,1 20,2 20,4 20,5 22,8 22,9 23,1 23,3 23,4 23,6 23,8 23,9 26,9 27,1 27,3 27,5 27,7 27,9 28,1 28,3 30,2 30,4 30,6 30,8 31,0 31,3 31,5 31,7 33,6 33,9 34,1 34,3 34,6 34,8 35,1 35,3 38,7 39,8 41,0 42,1 43,2 44,3 45,4 46,5 45,8 47,1 48,4 49,7 51,1 52,4 53,7 55,0 50,1 51,5 53,0 54,4 55,9 57,3 58,8 60,2 58,8 60,5 62,2 63,9 65,6 67,3 69,0 70,7 67,3 69,2 71,2 73,1 75,1 77,0 79,0 80,9 77,8 80,0 82,3 84,5 86,8 89,0 91,3 93,5 86,9 89,4 91,9 94,4 96,9 99,4 102 104 16,5 16,6 16,7 16,8 17,0 17,1 17,2 17,3 19,7 19,9 20,0 20,2 20,3 20,5 20,6 20,7 21,5 21,6 21,8 21,9 22,1 22,3 22,4 22,6 25,0 25,2 25,4 25,6 25,8 26,0 26,1 26,3 29,6 29,8 30,0 30,2 30,5 30,7 30,9 31,1 33,2 33,4 33,7 33,9 34,1 34,4 34,6 34,9 37,0 37,2 37,5 37,8 38,1 38,3 38,6 38,9 37,1 38,2 39,3 40,3 41,4 42,5 43,6 44,6 43,9 45,1 46,4 47,6 48,9 50,2 51,4 52,7 48,0 49,4 50,8 52,2 53,6 55,0 56,3 57,7 56,4 58,0 59,6 61,3 62,9 64,5 66,2 67,8 64,5 66,4 68,2 70,1 72,0 73,8 75,7 77,5 74,6 76,7 78,9 81,0 83,2 85,4 87,5 89,7 83,6 86,0 88,4 90,8 93,3 95,7 98,1 100 16,8 16,9 17,0 17,2 17,3 17,4 17,5 17,7 20,2 20,4 20,5 20,7 20,8 21,0 21,1 21,3 21,9 22,0 22,2 22,4 22,5 22,7 22,8 23,0 25,7 25,9 26,0 26,2 26,4 26,6 26,8 27,0 30,3 30,5 30,7 30,9 31,2 31,4 31,6 31,8 33,3 33,6 33,8 34,1 34,3 34,6 34,8 35,1 37,4 37,6 37,9 38,2 38,5 38,7 39,0 39,3 34,3 35,3 36,2 40,5 41,6 42,8 44,3 45,6 46,9 52,0 53,5 55,0 59,5 61,2 63,0 68,8 70,8 72,8 77,1 79,4 81,6 - 18,2 18,3 18,5 21,9 22,1 22,2 23,7 23,9 24,1 27,8 28,0 28,2 32,8 33,0 33,3 36,1 36,4 36,7 40,5 40,8 41,1 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 24 TECHNICAL DATA - BASE VERSION (VB) Mod. 115.2 ÷ 200.2 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 124 127 131 134 138 142 145 149 138 142 146 150 154 158 162 166 158 162 167 171 176 180 185 190 174 179 184 189 194 199 204 209 199 204 210 216 221 227 233 239 220 226 233 239 245 252 258 265 26,4 26,5 26,7 26,9 27,1 27,3 27,5 27,7 29,9 30,2 30,4 30,6 30,8 31,0 31,3 31,5 33,5 33,8 34,0 34,3 34,5 34,8 35,0 35,3 37,5 37,7 38,0 38,3 38,6 38,8 39,1 39,4 41,9 42,2 42,5 42,8 43,1 43,4 43,7 44,0 46,8 47,1 47,5 47,8 48,2 48,5 48,8 49,2 117 120 123 127 130 134 137 140 131 134 138 142 146 150 153 157 149 153 157 162 166 170 175 179 164 169 173 178 183 188 192 197 187 193 198 204 209 214 220 225 208 214 220 226 232 238 244 250 30,1 30,3 30,6 30,8 31,0 31,2 31,4 31,7 34,2 34,5 34,7 35,0 35,2 35,5 35,7 36,0 38,3 38,6 38,9 39,2 39,4 39,7 40,0 40,3 42,8 43,1 43,4 43,8 44,1 44,4 44,7 45,0 47,9 48,2 48,6 48,9 49,3 49,6 50,0 50,3 53,5 53,8 54,2 54,6 55,0 55,4 55,8 56,2 110 113 116 119 123 126 129 132 123 127 130 134 137 141 144 148 140 144 148 152 156 160 164 169 154 159 163 168 172 177 181 186 177 182 187 192 197 202 207 212 196 201 207 213 218 224 230 235 33,9 34,1 34,4 34,6 34,9 35,1 35,4 35,6 38,5 38,8 39,1 39,3 39,6 39,9 40,2 40,5 43,1 43,4 43,7 44,1 44,4 44,7 45,0 45,3 48,2 48,5 48,9 49,2 49,6 49,9 50,3 50,6 53,8 54,2 54,6 55,0 55,4 55,8 56,2 56,6 60,1 60,6 61,0 61,5 61,9 62,4 62,8 63,2 103 106 109 112 115 118 121 124 115 119 122 125 129 132 135 139 131 135 139 143 147 150 154 158 145 149 153 157 161 166 170 174 165 170 175 180 185 189 194 199 183 189 194 199 205 210 215 220 37,6 37,9 38,2 38,5 38,8 39,0 39,3 39,6 42,8 43,1 43,4 43,7 44,0 44,3 44,7 45,0 47,9 48,2 48,6 49,0 49,3 49,7 50,0 50,4 53,5 53,9 54,3 54,7 55,1 55,5 55,9 56,3 59,8 60,3 60,7 61,1 61,6 62,0 62,5 62,9 66,8 67,3 67,8 68,3 68,8 69,3 69,8 70,3 96,1 98,9 102 104 107 110 113 116 108 111 114 117 120 123 126 129 123 126 130 133 137 140 144 147 135 139 143 147 151 154 158 162 154 159 163 168 172 177 181 186 171 176 181 186 191 196 201 206 41,4 41,7 42,0 42,3 42,6 42,9 43,2 43,5 47,0 47,4 47,7 48,1 48,4 48,8 49,1 49,5 52,7 53,1 53,5 53,8 54,2 54,6 55,0 55,4 58,9 59,3 59,7 60,2 60,6 61,0 61,5 61,9 65,8 66,3 66,8 67,3 67,7 68,2 68,7 69,2 73,5 74,0 74,6 75,1 75,7 76,2 76,7 77,3 91,8 94,5 97,1 99,8 102 105 108 110 103 106 109 112 115 118 121 124 117 121 124 127 131 134 138 141 130 133 137 141 144 148 152 156 148 152 156 160 165 169 173 177 164 169 173 178 183 188 192 197 42,0 42,3 42,6 42,9 43,2 43,5 43,8 44,1 47,9 48,2 48,6 49,0 49,3 49,7 50,0 50,4 53,2 53,6 54,0 54,4 54,8 55,2 55,6 56,0 59,7 60,2 60,6 61,0 61,5 61,9 62,4 62,8 66,2 66,7 67,2 67,7 68,2 68,7 69,2 69,6 74,3 74,8 75,4 75,9 76,5 77,0 77,6 78,1 84,7 87,2 89,6 95,3 98,1 101 108 111 114 120 123 126 136 140 144 151 156 160 - 45,5 45,8 46,2 51,9 52,3 52,7 57,6 58,1 58,5 64,7 65,2 65,7 71,7 72,3 72,8 80,5 81,0 81,6 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 25 TECHNICAL DATA - BASE VERSION (VB) Standard performances in cooling mode IR - Extra low noise setting up (AX) Mod. 40.2 ÷ 100.2 MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 48,7 50,1 51,5 52,9 54,3 55,7 57,1 58,5 57,5 59,2 60,8 62,5 64,2 65,8 67,5 69,1 63,0 64,8 66,6 68,4 70,2 72,0 73,9 75,7 74,0 76,1 78,2 80,4 82,5 84,6 86,8 88,9 84,5 87,0 89,4 91,8 94,3 96,7 99,2 102 97,8 101 103 106 109 112 115 118 109 112 115 119 122 125 128 131 10,6 10,7 10,8 10,9 10,9 11,0 11,1 11,2 12,9 13,0 13,1 13,2 13,3 13,4 13,5 13,6 14,2 14,3 14,4 14,5 14,6 14,7 14,8 14,9 16,4 16,5 16,7 16,8 16,9 17,0 17,1 17,3 19,5 19,7 19,8 20,0 20,1 20,2 20,4 20,5 20,7 20,8 21,0 21,2 21,3 21,5 21,6 21,8 24,5 24,7 24,9 25,0 25,2 25,4 25,6 25,8 46,0 47,3 48,6 49,9 51,3 52,6 53,9 55,2 54,3 55,9 57,4 59,0 60,6 62,1 63,7 65,3 59,5 61,2 62,9 64,6 66,3 68,0 69,7 71,5 69,8 71,9 73,9 75,9 77,9 79,9 81,9 83,9 79,8 82,1 84,4 86,7 89,0 91,3 93,6 95,9 92,3 95,0 97,7 100 103 106 108 111 103 106 109 112 115 118 121 124 12,1 12,2 12,3 12,4 12,5 12,6 12,7 12,8 14,7 14,9 15,0 15,1 15,2 15,3 15,4 15,5 16,2 16,4 16,5 16,6 16,7 16,8 17,0 17,1 18,8 18,9 19,0 19,2 19,3 19,5 19,6 19,7 22,3 22,5 22,6 22,8 23,0 23,1 23,3 23,5 23,7 23,8 24,0 24,2 24,3 24,5 24,7 24,9 28,0 28,2 28,4 28,6 28,8 29,0 29,2 29,4 43,3 44,5 45,8 47,0 48,3 49,5 50,8 52,0 51,1 52,6 54,1 55,6 57,0 58,5 60,0 61,5 56,0 57,6 59,2 60,8 62,4 64,1 65,7 67,3 65,8 67,7 69,6 71,5 73,4 75,3 77,2 79,1 75,2 77,3 79,5 81,7 83,8 86,0 88,2 90,3 87,0 89,5 92,0 94,5 97,0 99,5 102 105 97,0 99,8 103 105 108 111 114 117 13,7 13,8 13,9 14,0 14,1 14,2 14,3 14,4 16,6 16,7 16,8 17,0 17,1 17,2 17,3 17,4 18,3 18,4 18,5 18,7 18,8 18,9 19,1 19,2 21,1 21,3 21,4 21,6 21,7 21,9 22,0 22,2 25,1 25,3 25,5 25,7 25,8 26,0 26,2 26,4 26,6 26,8 27,0 27,2 27,4 27,6 27,8 28,0 31,5 31,7 32,0 32,2 32,4 32,6 32,9 33,1 40,6 41,7 42,9 44,1 45,2 46,4 47,6 48,8 47,9 49,3 50,7 52,1 53,5 54,8 56,2 57,6 52,5 54,0 55,5 57,0 58,5 60,0 61,6 63,1 61,6 63,4 65,2 67,0 68,8 70,5 72,3 74,1 70,4 72,5 74,5 76,5 78,6 80,6 82,6 84,7 81,5 83,8 86,2 88,6 90,9 93,3 95,6 98,0 91,0 93,6 96,2 98,8 101 104 107 109 15,2 15,3 15,4 15,5 15,6 15,7 15,8 16,0 18,4 18,6 18,7 18,8 19,0 19,1 19,2 19,4 20,3 20,5 20,6 20,7 20,9 21,0 21,2 21,3 23,5 23,6 23,8 24,0 24,1 24,3 24,5 24,7 27,9 28,1 28,3 28,5 28,7 28,9 29,1 29,3 29,6 29,8 30,0 30,2 30,4 30,7 30,9 31,1 35,0 35,2 35,5 35,8 36,0 36,3 36,5 36,8 37,8 38,9 40,0 41,1 42,2 43,3 44,4 45,5 44,7 46,0 47,3 48,6 49,9 51,2 52,5 53,8 49,0 50,4 51,8 53,2 54,6 56,0 57,4 58,8 57,5 59,2 60,8 62,5 64,1 65,8 67,5 69,1 65,7 67,6 69,5 71,4 73,3 75,2 77,1 79,0 76,0 78,2 80,4 82,6 84,8 87,0 89,2 91,4 84,9 87,3 89,8 92,2 94,7 97,1 99,5 102 16,7 16,8 16,9 17,1 17,2 17,3 17,4 17,6 20,3 20,4 20,6 20,7 20,9 21,0 21,2 21,3 22,3 22,5 22,7 22,8 23,0 23,2 23,3 23,5 25,8 26,0 26,2 26,4 26,6 26,8 26,9 27,1 30,7 30,9 31,1 31,4 31,6 31,8 32,0 32,3 32,5 32,8 33,0 33,2 33,5 33,7 34,0 34,2 38,5 38,8 39,1 39,3 39,6 39,9 40,2 40,5 38,2 39,4 40,5 41,6 42,7 43,8 44,9 46,0 45,2 46,5 47,8 49,1 50,4 51,7 53,0 54,3 49,5 50,9 52,3 53,8 55,2 56,6 58,0 59,5 58,1 59,8 61,4 63,1 64,8 66,5 68,1 69,8 66,4 68,4 70,3 72,2 74,1 76,0 77,9 79,9 76,8 79,0 81,3 83,5 85,7 87,9 90,1 92,3 86,1 88,6 91,1 93,6 96,1 98,5 101 104 16,3 16,4 16,5 16,6 16,8 16,9 17,0 17,1 19,6 19,8 19,9 20,0 20,2 20,3 20,5 20,6 21,2 21,4 21,5 21,7 21,8 22,0 22,2 22,3 24,9 25,1 25,3 25,4 25,6 25,8 26,0 26,2 29,4 29,6 29,8 30,0 30,2 30,4 30,7 30,9 32,3 32,6 32,8 33,1 33,3 33,5 33,8 34,0 36,2 36,5 36,8 37,0 37,3 37,6 37,9 38,1 35,3 36,3 37,3 41,7 42,9 44,1 45,7 47,0 48,3 53,6 55,1 56,7 61,3 63,1 64,8 70,9 72,9 75,0 79,5 81,8 84,0 - 17,6 17,8 17,9 21,2 21,4 21,6 23,0 23,2 23,3 27,0 27,2 27,4 31,8 32,0 32,3 35,0 35,3 35,6 39,3 39,6 39,8 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 26 TECHNICAL DATA - BASE VERSION (VB) Mod. 115.2 ÷ 200.2 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 120 124 127 131 134 138 141 145 135 139 143 147 151 154 158 162 153 158 162 166 171 175 180 184 170 175 180 185 190 195 200 205 193 198 204 210 215 221 226 232 214 221 227 233 239 245 252 258 27,4 27,6 27,8 28,0 28,2 28,4 28,6 28,8 31,1 31,3 31,6 31,8 32,0 32,3 32,5 32,7 34,6 34,9 35,1 35,4 35,7 35,9 36,2 36,4 38,7 39,0 39,3 39,6 39,8 40,1 40,4 40,7 43,7 44,0 44,3 44,6 45,0 45,3 45,6 45,9 48,7 49,1 49,4 49,8 50,1 50,5 50,9 51,2 114 117 120 123 127 130 133 136 127 131 135 139 142 146 150 153 145 149 153 157 161 165 170 174 161 165 170 175 179 184 188 193 182 187 193 198 203 208 214 219 202 208 214 220 226 232 237 243 31,3 31,5 31,8 32,0 32,2 32,5 32,7 32,9 35,6 35,8 36,1 36,3 36,6 36,9 37,1 37,4 39,6 39,9 40,2 40,5 40,7 41,0 41,3 41,6 44,2 44,6 44,9 45,2 45,5 45,9 46,2 46,5 49,9 50,3 50,6 51,0 51,4 51,7 52,1 52,5 55,7 56,1 56,5 56,9 57,3 57,7 58,1 58,5 107 110 113 116 119 122 125 129 120 124 127 130 134 137 141 144 136 140 144 148 152 156 160 164 151 156 160 164 169 173 178 182 171 176 181 186 191 196 201 206 191 196 202 207 213 218 224 229 35,2 35,5 35,7 36,0 36,2 36,5 36,8 37,0 40,0 40,3 40,6 40,9 41,2 41,5 41,8 42,1 44,5 44,9 45,2 45,5 45,8 46,2 46,5 46,8 49,8 50,1 50,5 50,9 51,2 51,6 52,0 52,3 56,1 56,6 57,0 57,4 57,8 58,2 58,6 59,0 62,6 63,1 63,5 64,0 64,5 64,9 65,4 65,9 100 103 106 109 112 115 118 120 113 116 119 122 125 129 132 135 128 131 135 139 142 146 150 153 142 146 150 154 158 162 166 170 161 165 170 175 179 184 189 193 179 184 189 194 199 204 210 215 39,1 39,4 39,7 40,0 40,3 40,6 40,9 41,1 44,4 44,8 45,1 45,4 45,8 46,1 46,4 46,7 49,5 49,8 50,2 50,6 50,9 51,3 51,7 52,0 55,3 55,7 56,1 56,5 56,9 57,3 57,7 58,1 62,4 62,8 63,3 63,8 64,2 64,7 65,1 65,6 69,6 70,1 70,6 71,1 71,6 72,1 72,7 73,2 93,5 96,2 98,9 102 104 107 110 112 105 108 111 114 117 120 123 126 119 123 126 129 133 136 140 143 132 136 140 144 148 151 155 159 150 154 159 163 167 172 176 180 167 172 176 181 186 191 196 200 43,0 43,4 43,7 44,0 44,3 44,6 44,9 45,3 48,9 49,2 49,6 50,0 50,3 50,7 51,1 51,4 54,4 54,8 55,2 55,6 56,0 56,4 56,8 57,2 60,8 61,3 61,7 62,2 62,6 63,1 63,5 64,0 68,6 69,1 69,6 70,1 70,6 71,1 71,7 72,2 76,5 77,1 77,7 78,2 78,8 79,4 79,9 80,5 94,6 97,3 100 103 105 108 111 114 106 109 113 116 119 122 125 128 121 124 128 131 135 138 142 145 133 137 141 145 149 153 156 160 152 156 161 165 170 174 178 183 169 174 179 183 188 193 198 203 40,7 41,0 41,3 41,6 41,9 42,2 42,5 42,8 46,5 46,8 47,1 47,5 47,8 48,2 48,5 48,9 51,6 52,0 52,4 52,8 53,1 53,5 53,9 54,3 57,9 58,4 58,8 59,2 59,6 60,1 60,5 60,9 64,2 64,7 65,2 65,7 66,1 66,6 67,1 67,6 72,0 72,6 73,1 73,6 74,2 74,7 75,2 75,8 87,3 89,8 92,3 98,2 101 104 111 115 118 123 127 130 140 144 148 156 160 165 - 44,1 44,4 44,8 50,3 50,7 51,1 55,9 56,3 56,7 62,8 63,2 63,7 69,6 70,1 70,6 78,0 78,6 79,2 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 27 TECHNICAL DATA - BASE VERSION (VB) Standard performances in cooling mode IP - Base setting up (AB) Mod. 40.2 ÷ 100.2 MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 50 (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 49,7 51,1 52,6 54,0 55,4 56,9 58,3 59,7 60,0 61,7 63,5 65,2 66,9 68,7 70,4 72,1 65,2 67,1 69,0 70,9 72,8 74,6 76,5 78,4 76,2 78,4 80,6 82,8 85,0 87,2 89,4 91,6 84,1 86,5 88,9 91,3 93,8 96,2 98,6 101 101 104 107 110 113 116 119 122 112 116 119 122 125 129 132 135 9,7 9,7 9,8 9,9 9,9 10,0 10,1 10,2 11,9 12,0 12,1 12,2 12,3 12,4 12,5 12,6 12,7 12,8 12,9 13,0 13,1 13,2 13,3 13,3 15,0 15,1 15,3 15,4 15,5 15,6 15,7 15,8 17,0 17,2 17,3 17,4 17,5 17,7 17,8 17,9 19,3 19,5 19,6 19,7 19,9 20,0 20,2 20,3 21,7 21,8 22,0 22,1 22,3 22,5 22,6 22,8 46,9 48,3 49,6 51,0 52,3 53,7 55,0 56,4 56,7 58,3 59,9 61,6 63,2 64,8 66,5 68,1 61,6 63,4 65,1 66,9 68,7 70,5 72,3 74,0 72,0 74,1 76,1 78,2 80,3 82,4 84,4 86,5 79,4 81,7 84,0 86,2 88,5 90,8 93,1 95,4 95,6 98,3 101 104 107 109 112 115 106 109 112 115 118 121 124 127 11,0 11,1 11,2 11,3 11,4 11,4 11,5 11,6 13,6 13,7 13,8 13,9 14,0 14,1 14,2 14,3 14,5 14,6 14,7 14,8 14,9 15,0 15,1 15,3 17,2 17,3 17,4 17,6 17,7 17,8 17,9 18,1 19,5 19,6 19,8 19,9 20,0 20,2 20,3 20,5 22,1 22,2 22,4 22,6 22,7 22,9 23,1 23,2 24,8 24,9 25,1 25,3 25,5 25,7 25,9 26,0 44,2 45,5 46,7 48,0 49,3 50,6 51,8 53,1 53,4 54,9 56,4 58,0 59,5 61,1 62,6 64,1 58,0 59,7 61,4 63,0 64,7 66,4 68,0 69,7 67,8 69,7 71,7 73,7 75,6 77,6 79,5 81,5 74,8 76,9 79,1 81,2 83,4 85,5 87,7 89,8 90,0 92,6 95,2 97,8 100 103 106 108 100 103 106 109 111 114 117 120 12,4 12,5 12,6 12,7 12,8 12,9 13,0 13,1 15,3 15,5 15,6 15,7 15,8 15,9 16,0 16,1 16,3 16,4 16,6 16,7 16,8 16,9 17,0 17,2 19,3 19,5 19,6 19,8 19,9 20,0 20,2 20,3 21,9 22,1 22,2 22,4 22,6 22,7 22,9 23,0 24,8 25,0 25,2 25,4 25,6 25,7 25,9 26,1 27,8 28,1 28,3 28,5 28,7 28,9 29,1 29,3 41,4 42,6 43,8 45,0 46,2 47,4 48,6 49,8 50,0 51,5 52,9 54,3 55,8 57,2 58,7 60,1 54,4 55,9 57,5 59,1 60,6 62,2 63,8 65,3 63,5 65,4 67,2 69,0 70,9 72,7 74,5 76,4 70,1 72,1 74,1 76,1 78,1 80,2 82,2 84,2 84,3 86,8 89,2 91,6 94,1 96,5 98,9 101 93,6 96,3 99,0 102 104 107 110 113 13,8 13,9 14,0 14,1 14,2 14,3 14,4 14,5 17,0 17,2 17,3 17,4 17,6 17,7 17,8 17,9 18,1 18,3 18,4 18,5 18,7 18,8 18,9 19,1 21,5 21,6 21,8 22,0 22,1 22,3 22,4 22,6 24,3 24,5 24,7 24,9 25,1 25,2 25,4 25,6 27,6 27,8 28,0 28,2 28,4 28,6 28,8 29,0 30,9 31,2 31,4 31,6 31,9 32,1 32,3 32,5 38,6 39,8 40,9 42,0 43,1 44,2 45,3 46,4 46,7 48,0 49,4 50,7 52,0 53,4 54,7 56,1 50,7 52,2 53,6 55,1 56,6 58,0 59,5 61,0 59,3 61,0 62,7 64,4 66,1 67,8 69,5 71,2 65,4 67,2 69,1 71,0 72,9 74,8 76,7 78,6 78,7 81,0 83,2 85,5 87,8 90,0 92,3 94,6 87,3 89,8 92,4 94,9 97,4 99,9 102 105 15,2 15,3 15,4 15,5 15,6 15,7 15,8 16,0 18,8 18,9 19,0 19,2 19,3 19,4 19,6 19,7 19,9 20,1 20,2 20,4 20,5 20,7 20,8 21,0 23,6 23,8 24,0 24,2 24,3 24,5 24,7 24,9 26,8 27,0 27,2 27,4 27,6 27,8 28,0 28,2 30,4 30,6 30,8 31,0 31,2 31,5 31,7 31,9 34,0 34,3 34,5 34,8 35,0 35,3 35,5 35,8 35,9 36,9 38,0 39,0 40,0 41,1 42,1 43,2 43,4 44,6 45,9 47,1 48,4 49,6 50,9 52,1 47,1 48,5 49,9 51,2 52,6 53,9 55,3 56,7 55,1 56,7 58,3 59,9 61,4 63,0 64,6 66,2 60,7 62,5 64,2 66,0 67,7 69,5 71,3 73,0 73,1 75,2 77,3 79,4 81,6 83,7 85,8 87,9 81,2 83,5 85,8 88,2 90,5 92,9 95,2 97,5 16,6 16,7 16,8 16,9 17,0 17,2 17,3 17,4 20,5 20,6 20,8 20,9 21,1 21,2 21,4 21,5 21,8 21,9 22,1 22,2 22,4 22,6 22,7 22,9 25,8 26,0 26,2 26,4 26,5 26,7 26,9 27,1 29,2 29,4 29,6 29,9 30,1 30,3 30,5 30,7 33,1 33,4 33,6 33,8 34,1 34,3 34,6 34,8 37,1 37,4 37,7 38,0 38,2 38,5 38,8 39,1 33,1 34,1 35,0 40,0 41,2 42,3 43,5 44,7 46,0 50,8 52,3 53,8 56,0 57,7 59,3 67,5 69,4 71,4 74,9 77,0 79,2 - 17,9 18,1 18,2 22,2 22,3 22,5 23,6 23,7 23,9 27,9 28,1 28,3 31,6 31,9 32,1 35,9 36,1 36,4 40,2 40,5 40,8 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 28 TECHNICAL DATA - BASE VERSION (VB) Mod. 115.2 ÷ 200.2 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 50 (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 125 128 132 136 139 143 146 150 138 142 146 150 154 158 162 166 157 161 166 170 175 179 184 188 175 180 185 190 195 200 205 210 202 208 214 219 225 231 237 243 225 231 238 244 251 257 264 270 24,4 24,6 24,8 25,0 25,1 25,3 25,5 25,7 27,6 27,8 28,0 28,2 28,4 28,6 28,8 29,0 30,3 30,5 30,7 31,0 31,2 31,4 31,6 31,8 34,4 34,6 34,9 35,1 35,4 35,6 35,9 36,1 37,9 38,2 38,5 38,8 39,1 39,3 39,6 39,9 43,1 43,4 43,8 44,1 44,4 44,7 45,0 45,3 118 121 125 128 131 135 138 142 131 134 138 142 146 150 153 157 148 152 156 161 165 169 173 178 165 170 174 179 184 189 194 198 191 196 202 207 213 218 224 229 212 218 224 230 237 243 249 255 27,9 28,1 28,3 28,5 28,7 28,9 29,1 29,3 31,5 31,8 32,0 32,2 32,5 32,7 32,9 33,2 34,6 34,9 35,1 35,4 35,6 35,9 36,1 36,4 39,3 39,6 39,8 40,1 40,4 40,7 41,0 41,3 43,4 43,7 44,0 44,3 44,6 45,0 45,3 45,6 49,3 49,6 50,0 50,4 50,7 51,1 51,5 51,8 111 114 117 121 124 127 130 133 123 127 130 134 137 141 144 148 139 143 147 151 155 159 163 167 155 160 164 169 173 178 182 187 180 185 190 195 200 205 211 216 200 206 211 217 223 229 234 240 31,4 31,6 31,9 32,1 32,3 32,6 32,8 33,0 35,5 35,7 36,0 36,3 36,5 36,8 37,0 37,3 38,9 39,2 39,5 39,8 40,1 40,4 40,7 40,9 44,2 44,5 44,8 45,1 45,5 45,8 46,1 46,4 48,8 49,1 49,5 49,9 50,2 50,6 50,9 51,3 55,4 55,8 56,3 56,7 57,1 57,5 57,9 58,3 104 107 110 113 116 119 122 125 115 119 122 125 129 132 135 139 130 134 138 142 146 149 153 157 146 150 154 158 162 167 171 175 168 173 178 183 188 193 197 202 187 193 198 203 209 214 220 225 34,9 35,1 35,4 35,7 35,9 36,2 36,4 36,7 39,4 39,7 40,0 40,3 40,6 40,9 41,2 41,5 43,3 43,6 43,9 44,2 44,5 44,9 45,2 45,5 49,1 49,4 49,8 50,2 50,5 50,9 51,2 51,6 54,2 54,6 55,0 55,4 55,8 56,2 56,6 57,0 61,6 62,0 62,5 63,0 63,4 63,9 64,3 64,8 97,0 99,8 103 105 108 111 114 117 108 111 114 117 120 123 126 129 122 125 129 132 136 139 143 146 136 140 144 148 152 155 159 163 157 162 166 171 175 180 184 189 175 180 185 190 195 200 205 210 38,4 38,7 38,9 39,2 39,5 39,8 40,1 40,4 43,4 43,7 44,0 44,3 44,6 45,0 45,3 45,6 47,6 47,9 48,3 48,6 49,0 49,3 49,7 50,0 54,0 54,4 54,8 55,2 55,6 56,0 56,4 56,8 59,6 60,1 60,5 60,9 61,4 61,8 62,3 62,7 67,8 68,3 68,8 69,3 69,8 70,3 70,8 71,3 90,2 92,8 95,4 98,0 101 103 106 108 100 103 106 109 112 114 117 120 113 116 120 123 126 129 133 136 126 130 134 137 141 144 148 152 146 150 154 159 163 167 171 175 162 167 172 176 181 186 190 195 41,9 42,2 42,5 42,8 43,1 43,4 43,7 44,0 47,3 47,7 48,0 48,3 48,7 49,0 49,4 49,7 51,9 52,3 52,7 53,1 53,4 53,8 54,2 54,6 58,9 59,3 59,8 60,2 60,6 61,1 61,5 61,9 65,0 65,5 66,0 66,5 67,0 67,4 67,9 68,4 73,9 74,5 75,0 75,5 76,1 76,6 77,2 77,7 83,2 85,6 88,0 92,3 94,9 97,6 104 107 110 116 120 123 135 139 142 150 154 158 - 45,4 45,7 46,0 51,2 51,6 52,0 56,2 56,7 57,1 63,8 64,3 64,7 70,5 71,0 71,5 80,1 80,7 81,3 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 29 TECHNICAL DATA - BASE VERSION (VB) Standard performances in cooling mode IP - Low noise setting up (AS) Mod. 40.2 ÷ 100.2 MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 47,7 49,0 50,4 51,8 53,1 54,5 55,9 57,3 57,6 59,3 61,0 62,6 64,3 65,9 67,6 69,3 62,6 64,4 66,2 68,0 69,9 71,7 73,5 75,3 73,2 75,3 77,4 79,5 81,6 83,7 85,8 88,0 80,7 83,0 85,3 87,6 90,0 92,3 94,6 97,0 97,1 99,9 103 106 108 111 114 117 108 111 114 117 120 123 126 130 10,3 10,4 10,5 10,6 10,7 10,7 10,8 10,9 13,0 13,1 13,2 13,3 13,4 13,4 13,5 13,6 13,9 14,0 14,1 14,2 14,3 14,4 14,5 14,6 16,3 16,5 16,6 16,7 16,8 17,0 17,1 17,2 18,5 18,6 18,8 18,9 19,0 19,2 19,3 19,4 21,4 21,5 21,7 21,9 22,0 22,2 22,3 22,5 23,9 24,0 24,2 24,4 24,6 24,7 24,9 25,1 45,0 46,3 47,6 48,9 50,2 51,5 52,8 54,1 54,4 56,0 57,6 59,1 60,7 62,3 63,8 65,4 59,1 60,8 62,5 64,2 66,0 67,7 69,4 71,1 69,1 71,1 73,1 75,1 77,1 79,1 81,1 83,0 76,2 78,4 80,6 82,8 85,0 87,1 89,3 91,5 91,7 94,3 97,0 99,6 102 105 108 110 102 105 108 111 114 116 119 122 11,8 11,9 12,0 12,1 12,2 12,3 12,3 12,4 14,8 14,9 15,0 15,1 15,3 15,4 15,5 15,6 15,8 16,0 16,1 16,2 16,3 16,4 16,5 16,7 18,7 18,8 19,0 19,1 19,2 19,4 19,5 19,6 21,1 21,3 21,4 21,6 21,8 21,9 22,1 22,2 24,4 24,6 24,8 25,0 25,2 25,3 25,5 25,7 27,3 27,5 27,7 27,9 28,1 28,3 28,5 28,7 42,4 43,6 44,8 46,0 47,3 48,5 49,7 50,9 51,2 52,7 54,2 55,7 57,2 58,6 60,1 61,6 55,7 57,3 58,9 60,5 62,1 63,7 65,3 66,9 65,1 66,9 68,8 70,7 72,6 74,5 76,3 78,2 71,7 73,8 75,9 77,9 80,0 82,1 84,1 86,2 86,4 88,8 91,3 93,8 96,3 98,8 101 104 95,8 98,6 101 104 107 110 112 115 13,3 13,4 13,5 13,6 13,7 13,8 13,9 14,0 16,7 16,8 16,9 17,0 17,2 17,3 17,4 17,5 17,8 18,0 18,1 18,2 18,4 18,5 18,6 18,7 21,0 21,2 21,3 21,5 21,6 21,8 22,0 22,1 23,8 23,9 24,1 24,3 24,5 24,6 24,8 25,0 27,5 27,7 27,9 28,1 28,3 28,5 28,7 28,9 30,7 30,9 31,1 31,4 31,6 31,8 32,0 32,3 39,7 40,9 42,0 43,1 44,3 45,4 46,6 47,7 48,0 49,4 50,8 52,2 53,6 55,0 56,3 57,7 52,2 53,7 55,2 56,7 58,2 59,7 61,2 62,7 61,0 62,7 64,5 66,3 68,0 69,8 71,5 73,3 67,2 69,2 71,1 73,0 75,0 76,9 78,9 80,8 80,9 83,3 85,6 87,9 90,3 92,6 94,9 97,3 89,8 92,4 95,0 97,6 100 103 105 108 14,8 14,9 15,0 15,1 15,2 15,3 15,4 15,5 18,5 18,7 18,8 18,9 19,1 19,2 19,3 19,5 19,8 20,0 20,1 20,2 20,4 20,5 20,7 20,8 23,4 23,5 23,7 23,9 24,0 24,2 24,4 24,6 26,4 26,6 26,8 27,0 27,2 27,4 27,6 27,8 30,5 30,8 31,0 31,2 31,5 31,7 31,9 32,1 34,1 34,3 34,6 34,9 35,1 35,4 35,6 35,9 37,0 38,1 39,2 40,3 41,3 42,4 43,5 44,5 44,8 46,1 47,4 48,7 50,0 51,3 52,6 53,9 48,7 50,1 51,5 52,9 54,3 55,7 57,1 58,5 56,9 58,5 60,2 61,8 63,5 65,1 66,7 68,4 62,7 64,5 66,3 68,1 70,0 71,8 73,6 75,4 75,5 77,7 79,9 82,0 84,2 86,4 88,6 90,8 83,8 86,2 88,6 91,1 93,5 95,9 98,3 101 16,3 16,4 16,5 16,6 16,7 16,9 17,0 17,1 20,4 20,5 20,7 20,8 21,0 21,1 21,3 21,4 21,8 21,9 22,1 22,3 22,4 22,6 22,8 22,9 25,7 25,9 26,1 26,3 26,4 26,6 26,8 27,0 29,1 29,3 29,5 29,7 29,9 30,1 30,3 30,6 33,6 33,9 34,1 34,3 34,6 34,8 35,1 35,3 37,5 37,8 38,1 38,3 38,6 38,9 39,2 39,4 35,9 36,9 38,0 39,0 40,0 41,1 42,1 43,2 43,4 44,6 45,9 47,1 48,4 49,6 50,9 52,1 47,1 48,5 49,9 51,2 52,6 53,9 55,3 56,7 55,1 56,7 58,3 59,9 61,4 63,0 64,6 66,2 60,7 62,5 64,2 66,0 67,7 69,5 71,3 73,0 73,1 75,2 77,3 79,4 81,6 83,7 85,8 87,9 81,2 83,5 85,8 88,2 90,5 92,9 95,2 97,5 16,6 16,7 16,8 16,9 17,0 17,2 17,3 17,4 20,5 20,6 20,8 20,9 21,1 21,2 21,4 21,5 21,8 21,9 22,1 22,2 22,4 22,6 22,7 22,9 25,8 26,0 26,2 26,4 26,5 26,7 26,9 27,1 29,2 29,4 29,6 29,9 30,1 30,3 30,5 30,7 33,1 33,4 33,6 33,8 34,1 34,3 34,6 34,8 37,1 37,4 37,7 38,0 38,2 38,5 38,8 39,1 33,1 34,1 35,0 40,0 41,2 42,3 43,5 44,7 46,0 50,8 52,3 53,8 56,0 57,7 59,3 67,5 69,4 71,4 74,9 77,0 79,2 - 17,9 18,1 18,2 22,2 22,3 22,5 23,6 23,7 23,9 27,9 28,1 28,3 31,6 31,9 32,1 35,9 36,1 36,4 40,2 40,5 40,8 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 30 TECHNICAL DATA - BASE VERSION (VB) Mod. 115.2 ÷ 200.2 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 120 124 127 131 134 138 141 145 133 137 140 144 148 152 156 160 150 154 158 163 167 171 176 180 168 173 178 182 187 192 197 202 194 200 205 211 216 222 228 233 216 222 228 234 240 247 253 259 26,8 27,0 27,2 27,4 27,6 27,8 28,0 28,1 30,1 30,4 30,6 30,8 31,0 31,3 31,5 31,7 33,5 33,7 34,0 34,2 34,4 34,7 34,9 35,2 37,7 38,0 38,3 38,6 38,8 39,1 39,4 39,7 42,0 42,3 42,6 42,9 43,3 43,6 43,9 44,2 47,5 47,9 48,2 48,6 48,9 49,3 49,6 50,0 114 117 120 123 127 130 133 136 125 129 133 136 140 143 147 151 141 145 150 154 158 162 166 170 159 163 168 172 177 181 186 191 183 188 194 199 204 210 215 220 204 209 215 221 227 233 239 245 30,6 30,8 31,0 31,3 31,5 31,7 31,9 32,2 34,5 34,7 35,0 35,2 35,5 35,7 36,0 36,2 38,2 38,5 38,8 39,1 39,4 39,6 39,9 40,2 43,1 43,4 43,8 44,1 44,4 44,7 45,0 45,4 48,0 48,4 48,7 49,1 49,4 49,8 50,1 50,5 54,3 54,7 55,1 55,5 55,9 56,3 56,7 57,1 107 110 113 116 119 122 125 129 118 121 125 128 132 135 138 142 133 137 141 145 149 152 156 160 149 154 158 162 167 171 175 179 173 177 182 187 192 197 202 207 192 197 203 208 214 219 225 230 34,4 34,7 34,9 35,2 35,4 35,7 35,9 36,2 38,8 39,0 39,3 39,6 39,9 40,2 40,5 40,8 43,0 43,3 43,7 44,0 44,3 44,6 44,9 45,2 48,5 48,9 49,2 49,6 49,9 50,3 50,7 51,0 54,0 54,4 54,8 55,2 55,6 56,0 56,4 56,8 61,1 61,6 62,0 62,5 62,9 63,4 63,8 64,3 100 103 106 109 112 115 118 120 111 114 117 120 123 127 130 133 125 128 132 136 139 143 146 150 140 144 148 152 156 160 164 168 162 166 171 176 180 185 190 194 180 185 190 195 200 206 211 216 38,2 38,5 38,8 39,1 39,4 39,6 39,9 40,2 43,1 43,4 43,7 44,0 44,3 44,7 45,0 45,3 47,8 48,1 48,5 48,9 49,2 49,6 49,9 50,3 53,9 54,3 54,7 55,1 55,5 55,9 56,3 56,7 60,0 60,5 60,9 61,3 61,8 62,2 62,7 63,1 67,9 68,4 68,9 69,4 69,9 70,4 70,9 71,4 93,5 96,2 98,9 102 104 107 110 112 103 106 109 112 115 118 121 124 116 120 123 127 130 133 137 140 131 134 138 142 146 149 153 157 151 155 160 164 168 173 177 181 168 172 177 182 187 192 197 201 42,1 42,4 42,7 43,0 43,3 43,6 43,9 44,2 47,4 47,7 48,1 48,4 48,8 49,1 49,5 49,8 52,6 53,0 53,4 53,7 54,1 54,5 54,9 55,3 59,3 59,7 60,2 60,6 61,0 61,5 61,9 62,4 66,0 66,5 67,0 67,5 68,0 68,5 68,9 69,4 74,7 75,2 75,8 76,3 76,9 77,4 78,0 78,5 90,2 92,8 95,4 98,0 101 103 106 108 100 103 106 109 112 114 117 120 113 116 120 123 126 129 133 136 126 130 134 137 141 144 148 152 146 150 154 159 163 167 171 175 162 167 172 176 181 186 190 195 41,9 42,2 42,5 42,8 43,1 43,4 43,7 44,0 47,3 47,7 48,0 48,3 48,7 49,0 49,4 49,7 51,9 52,3 52,7 53,1 53,4 53,8 54,2 54,6 58,9 59,3 59,8 60,2 60,6 61,1 61,5 61,9 65,0 65,5 66,0 66,5 67,0 67,4 67,9 68,4 73,9 74,5 75,0 75,5 76,1 76,6 77,2 77,7 83,2 85,6 88,0 92,3 94,9 97,6 104 107 110 116 120 123 135 139 142 150 154 158 - 45,4 45,7 46,0 51,2 51,6 52,0 56,2 56,7 57,1 63,8 64,3 64,7 70,5 71,0 71,5 80,1 80,7 81,3 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 31 TECHNICAL DATA - BASE VERSION (VB) Standard performances in cooling mode IP - Extra low noise setting up (AX) Mod. 40.2 ÷ 100.2 MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 46,7 48,1 49,4 50,8 52,1 53,5 54,8 56,2 56,4 58,0 59,6 61,3 62,9 64,5 66,1 67,8 61,4 63,1 64,9 66,7 68,5 70,2 72,0 73,8 71,7 73,8 75,8 77,9 80,0 82,0 84,1 86,2 79,1 81,4 83,6 85,9 88,2 90,5 92,8 95,0 95,1 97,8 101 103 106 109 112 114 106 109 112 115 118 121 124 127 11,2 11,3 11,3 11,4 11,5 11,6 11,7 11,8 13,8 13,9 14,0 14,1 14,2 14,3 14,4 14,5 14,8 14,9 15,1 15,2 15,3 15,4 15,5 15,6 17,5 17,6 17,7 17,8 18,0 18,1 18,2 18,4 19,7 19,9 20,0 20,2 20,3 20,5 20,6 20,7 22,9 23,1 23,2 23,4 23,6 23,7 23,9 24,1 25,5 25,7 25,9 26,1 26,3 26,5 26,7 26,8 44,1 45,4 46,7 48,0 49,2 50,5 51,8 53,0 53,2 54,8 56,3 57,8 59,4 60,9 62,5 64,0 58,0 59,6 61,3 63,0 64,6 66,3 68,0 69,7 67,7 69,7 71,6 73,6 75,5 77,5 79,4 81,4 74,7 76,8 79,0 81,1 83,3 85,4 87,6 89,7 89,8 92,4 94,9 97,5 100 103 105 108 99,7 103 105 108 111 114 117 120 12,8 12,9 13,0 13,1 13,1 13,2 13,3 13,4 15,8 15,9 16,0 16,1 16,2 16,3 16,5 16,6 16,9 17,1 17,2 17,3 17,5 17,6 17,7 17,8 19,9 20,1 20,2 20,4 20,5 20,7 20,8 21,0 22,5 22,7 22,9 23,0 23,2 23,4 23,5 23,7 26,2 26,4 26,6 26,8 26,9 27,1 27,3 27,5 29,2 29,4 29,6 29,8 30,0 30,2 30,5 30,7 41,6 42,8 44,0 45,2 46,4 47,6 48,8 50,0 50,1 51,6 53,0 54,5 55,9 57,4 58,8 60,3 54,6 56,2 57,7 59,3 60,9 62,4 64,0 65,6 63,8 65,6 67,4 69,3 71,1 73,0 74,8 76,6 70,3 72,3 74,4 76,4 78,4 80,5 82,5 84,5 84,5 87,0 89,4 91,9 94,3 96,7 99,2 102 93,9 96,6 99,3 102 105 107 110 113 14,4 14,5 14,6 14,7 14,8 14,9 15,0 15,1 17,7 17,9 18,0 18,1 18,3 18,4 18,5 18,7 19,1 19,2 19,4 19,5 19,6 19,8 19,9 20,1 22,4 22,6 22,8 22,9 23,1 23,3 23,4 23,6 25,4 25,6 25,7 25,9 26,1 26,3 26,5 26,7 29,4 29,7 29,9 30,1 30,3 30,5 30,7 31,0 32,8 33,1 33,3 33,5 33,8 34,0 34,3 34,5 39,0 40,1 41,2 42,3 43,4 44,6 45,7 46,8 47,0 48,3 49,7 51,1 52,4 53,8 55,1 56,5 51,1 52,6 54,1 55,6 57,1 58,5 60,0 61,5 59,8 61,5 63,2 64,9 66,6 68,4 70,1 71,8 65,9 67,8 69,7 71,6 73,5 75,4 77,3 79,2 79,2 81,5 83,8 86,1 88,4 90,7 92,9 95,2 88,0 90,6 93,1 95,6 98,2 101 103 106 16,0 16,1 16,2 16,3 16,4 16,6 16,7 16,8 19,7 19,9 20,0 20,1 20,3 20,4 20,6 20,7 21,2 21,3 21,5 21,7 21,8 22,0 22,1 22,3 24,9 25,1 25,3 25,5 25,7 25,9 26,0 26,2 28,2 28,4 28,6 28,8 29,0 29,2 29,4 29,6 32,7 33,0 33,2 33,4 33,7 33,9 34,2 34,4 36,5 36,7 37,0 37,3 37,5 37,8 38,1 38,3 36,3 37,4 38,4 39,5 40,5 41,6 42,6 43,7 43,8 45,1 46,4 47,6 48,9 50,2 51,4 52,7 47,7 49,1 50,5 51,9 53,2 54,6 56,0 57,4 55,7 57,4 59,0 60,6 62,2 63,8 65,4 67,0 61,5 63,3 65,0 66,8 68,6 70,4 72,1 73,9 73,9 76,1 78,2 80,3 82,5 84,6 86,7 88,8 82,1 84,5 86,9 89,2 91,6 94,0 96,3 98,7 17,6 17,7 17,8 17,9 18,1 18,2 18,3 18,5 21,7 21,8 22,0 22,2 22,3 22,5 22,6 22,8 23,3 23,5 23,7 23,8 24,0 24,2 24,3 24,5 27,4 27,6 27,8 28,0 28,2 28,4 28,6 28,8 31,0 31,2 31,5 31,7 31,9 32,1 32,4 32,6 36,0 36,3 36,5 36,8 37,1 37,3 37,6 37,8 40,1 40,4 40,7 41,0 41,3 41,6 41,9 42,2 37,0 38,0 39,1 40,2 41,2 42,3 43,4 44,4 44,7 46,0 47,2 48,5 49,8 51,1 52,4 53,7 48,5 49,9 51,3 52,7 54,1 55,5 56,9 58,4 56,7 58,4 60,0 61,6 63,3 64,9 66,6 68,2 62,6 64,4 66,2 68,0 69,8 71,6 73,4 75,2 75,3 77,5 79,7 81,8 84,0 86,2 88,3 90,5 83,6 86,0 88,4 90,8 93,2 95,6 98,1 100 16,1 16,2 16,3 16,4 16,5 16,7 16,8 16,9 19,8 20,0 20,1 20,3 20,4 20,6 20,7 20,9 21,1 21,3 21,4 21,6 21,7 21,9 22,0 22,2 25,0 25,2 25,4 25,6 25,7 25,9 26,1 26,3 28,3 28,5 28,8 29,0 29,2 29,4 29,6 29,8 32,1 32,4 32,6 32,8 33,1 33,3 33,5 33,8 36,0 36,3 36,5 36,8 37,1 37,3 37,6 37,9 34,1 35,1 36,1 41,2 42,4 43,6 44,8 46,1 47,4 52,4 53,9 55,4 57,7 59,4 61,1 69,5 71,5 73,5 77,1 79,4 81,6 - 17,4 17,5 17,7 21,5 21,7 21,8 22,9 23,0 23,2 27,1 27,3 27,5 30,7 30,9 31,1 34,8 35,1 35,3 39,0 39,3 39,6 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 32 TECHNICAL DATA - BASE VERSION (VB) Mod. 115.2 ÷ 200.2 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TW 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 20 OUTDOOR AIR TEMPERATURE (°C D.B.) 30 35 40 25 45 (1) 50 (1) (2) kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa kWf kWa 117 120 124 127 130 134 137 140 130 134 138 142 146 149 153 157 147 152 156 160 165 169 173 177 165 169 174 179 183 188 193 198 189 195 200 206 211 217 222 228 211 217 223 229 235 241 248 254 28,6 28,8 29,1 29,3 29,5 29,7 29,9 30,1 32,1 32,4 32,6 32,9 33,1 33,3 33,6 33,8 35,9 36,1 36,4 36,7 36,9 37,2 37,5 37,7 40,4 40,7 41,0 41,3 41,6 41,9 42,2 42,5 45,1 45,4 45,8 46,1 46,4 46,8 47,1 47,4 50,9 51,3 51,7 52,0 52,4 52,8 53,2 53,5 110 114 117 120 123 126 129 133 123 127 130 134 137 141 145 148 139 143 147 151 155 159 163 167 155 160 164 169 173 178 182 187 179 184 189 194 200 205 210 215 199 205 211 216 222 228 234 239 32,7 33,0 33,2 33,4 33,7 33,9 34,2 34,4 36,7 37,0 37,3 37,6 37,8 38,1 38,4 38,6 41,0 41,3 41,6 41,9 42,2 42,5 42,8 43,1 46,2 46,5 46,9 47,2 47,6 47,9 48,2 48,6 51,6 51,9 52,3 52,7 53,1 53,5 53,8 54,2 58,2 58,6 59,0 59,5 59,9 60,3 60,8 61,2 104 107 110 113 116 119 122 125 116 119 123 126 129 133 136 139 131 135 139 142 146 150 154 158 146 150 155 159 163 167 172 176 168 173 178 183 188 193 198 202 188 193 198 204 209 215 220 226 36,8 37,1 37,4 37,6 37,9 38,2 38,4 38,7 41,3 41,6 41,9 42,2 42,6 42,9 43,2 43,5 46,1 46,5 46,8 47,1 47,5 47,8 48,2 48,5 52,0 52,4 52,7 53,1 53,5 53,9 54,3 54,7 58,0 58,4 58,9 59,3 59,7 60,1 60,6 61,0 65,5 65,9 66,4 66,9 67,4 67,9 68,4 68,8 97,4 100 103 106 109 111 114 117 109 112 115 118 121 124 128 131 123 126 130 134 137 141 144 148 137 141 145 149 153 157 161 165 158 162 167 172 176 181 185 190 176 181 186 191 196 201 206 211 40,9 41,2 41,5 41,8 42,1 42,4 42,7 43,0 45,9 46,3 46,6 46,9 47,3 47,6 48,0 48,3 51,2 51,6 52,0 52,4 52,8 53,1 53,5 53,9 57,7 58,2 58,6 59,0 59,5 59,9 60,3 60,7 64,4 64,9 65,4 65,9 66,4 66,8 67,3 67,8 72,7 73,3 73,8 74,3 74,9 75,4 75,9 76,5 90,9 93,5 96,1 98,7 101 104 107 109 101 104 107 110 113 116 119 122 115 118 121 125 128 131 135 138 128 132 135 139 143 146 150 154 147 152 156 160 164 169 173 177 164 169 174 178 183 188 192 197 45,0 45,3 45,7 46,0 46,3 46,6 47,0 47,3 50,5 50,9 51,3 51,6 52,0 52,4 52,8 53,1 56,4 56,8 57,2 57,6 58,0 58,4 58,9 59,3 63,5 64,0 64,5 64,9 65,4 65,9 66,3 66,8 70,9 71,4 71,9 72,5 73,0 73,5 74,0 74,6 80,0 80,6 81,2 81,8 82,4 83,0 83,5 84,1 92,9 95,6 98,2 101 104 106 109 112 103 106 109 112 115 118 121 124 117 120 123 127 130 133 137 140 130 134 138 141 145 149 153 156 150 155 159 163 168 172 176 181 167 172 177 182 186 191 196 201 40,6 40,9 41,2 41,5 41,8 42,1 42,4 42,7 45,9 46,2 46,6 46,9 47,2 47,6 47,9 48,3 50,4 50,7 51,1 51,5 51,8 52,2 52,6 53,0 57,1 57,5 58,0 58,4 58,8 59,2 59,7 60,1 63,1 63,6 64,0 64,5 65,0 65,4 65,9 66,3 71,7 72,2 72,8 73,3 73,8 74,3 74,9 75,4 85,7 88,2 90,6 95,0 97,8 101 108 111 114 120 123 127 139 143 147 154 159 163 - 44,0 44,3 44,6 49,7 50,1 50,4 54,6 55,0 55,4 61,9 62,3 62,8 68,3 68,9 69,4 77,7 78,2 78,8 - Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. (2) : ATC (Advanced Temperature Control) function may occur, if present. 33 TECHNICAL DATA - BASE VERSION (VB) Standard performances in heating mode IP - Base setting up (AB) MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 TW 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 -6 OUTDOOR AIR TEMPERATURE (°C W.B.) 2 6 9 -2 12 15 kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa 38,7 38,0 36,7 35,9 34,8 46,6 45,7 44,2 43,1 41,8 50,7 49,8 48,1 47,0 45,5 59,8 58,7 56,7 55,4 53,7 66,7 65,4 63,3 61,7 59,9 79,9 78,5 75,9 74,0 71,8 88,3 86,7 83,8 81,8 79,3 100 98,6 95,3 93,0 90,2 109 107 104 101 98,2 124 122 118 115 111 139 136 131 128 124 158 155 150 146 142 173 170 165 161 156 9,57 10,9 12,2 13,7 15,3 11,7 13,4 14,9 16,8 18,8 12,6 14,4 16,0 17,9 20,1 14,9 17,0 18,9 21,2 23,8 17,0 19,5 21,7 24,3 27,3 19,7 22,5 25,0 28,1 31,5 21,3 24,4 27,1 30,5 34,1 24,7 28,2 31,4 35,3 39,5 27,2 31,1 34,6 38,9 43,6 30,6 35,0 38,9 43,7 49,0 34,0 38,8 43,2 48,5 54,3 38,2 43,6 48,5 54,5 61,1 42,5 48,6 54,0 60,7 68,0 44,4 43,6 42,1 41,1 39,9 53,4 52,4 50,7 49,5 48,0 58,1 57,1 55,2 53,8 52,2 68,5 67,3 65,1 63,5 61,6 76,4 75,0 72,5 70,8 68,7 91,7 90,0 87,0 84,9 82,3 101 99,4 96,1 93,7 90,9 115 113 109 107 103 125 123 119 116 113 142 139 135 132 128 159 156 151 147 143 181 178 172 168 163 199 195 189 184 179 9,67 11,1 12,3 13,8 15,5 11,9 13,6 15,1 17,0 19,0 12,7 14,5 16,1 18,1 20,3 15,0 17,2 19,1 21,5 24,0 17,2 19,7 21,9 24,6 27,5 19,9 22,7 25,3 28,4 31,8 21,5 24,6 27,4 30,8 34,5 25,0 28,5 31,7 35,7 40,0 27,5 31,4 35,0 39,3 44,0 30,9 35,4 39,3 44,2 49,5 34,3 39,2 43,6 49,0 54,9 38,6 44,1 49,0 55,1 61,7 42,9 49,1 54,6 61,3 68,7 49,0 48,1 46,5 45,4 44,0 59,0 57,9 56,0 54,6 53,0 64,2 63,0 61,0 59,5 57,7 75,7 74,3 71,9 70,1 68,0 84,4 82,9 80,1 78,2 75,8 101 99,4 96,1 93,8 91,0 112 110 106 104 100 127 125 121 118 114 139 136 131 128 124 157 154 149 145 141 175 172 167 162 158 200 196 190 185 180 220 215 208 203 197 9,77 11,2 12,4 14,0 15,6 12,0 13,7 15,2 17,1 19,2 12,8 14,7 16,3 18,3 20,5 15,2 17,3 19,3 21,7 24,3 17,4 19,9 22,1 24,8 27,8 20,1 23,0 25,6 28,7 32,2 21,8 24,9 27,7 31,1 34,8 25,2 28,8 32,1 36,0 40,4 27,8 31,8 35,3 39,7 44,5 31,3 35,7 39,7 44,6 50,0 34,7 39,6 44,1 49,5 55,4 38,9 44,5 49,5 55,6 62,3 43,4 49,6 55,2 62,0 69,4 51,6 50,7 49,0 47,8 46,4 62,1 61,0 58,9 57,5 55,8 67,6 66,4 64,2 62,6 60,7 79,7 78,2 75,6 73,8 71,6 88,9 87,2 84,4 82,3 79,8 107 105 101 98,7 95,7 118 116 112 109 106 134 131 127 124 120 146 143 138 135 131 165 162 157 153 148 185 181 175 171 166 211 207 200 195 189 231 227 219 214 208 9,87 11,3 12,5 14,1 15,8 12,1 13,8 15,4 17,3 19,4 13,0 14,8 16,5 18,5 20,7 15,3 17,5 19,5 21,9 24,5 17,6 20,1 22,3 25,1 28,1 20,3 23,2 25,8 29,0 32,5 22,0 25,1 27,9 31,4 35,2 25,5 29,1 32,4 36,4 40,8 28,1 32,1 35,7 40,1 44,9 31,6 36,1 40,1 45,1 50,5 35,0 40,0 44,5 50,0 56,0 39,3 45,0 50,0 56,2 62,9 43,8 50,1 55,7 62,6 70,1 56,1 55,1 53,3 52,0 50,4 67,5 66,3 64,1 62,5 60,6 73,5 72,1 69,7 68,0 66,0 86,6 85,0 82,2 80,2 77,8 96,6 94,8 91,7 89,5 86,8 116 114 110 107 104 128 126 121 118 115 146 143 138 135 131 158 156 150 147 142 180 176 170 166 161 201 197 191 186 180 229 225 217 212 206 251 247 238 233 226 10,0 11,4 12,7 14,2 15,9 12,2 14,0 15,6 17,5 19,6 13,1 14,9 16,6 18,7 20,9 15,5 17,7 19,7 22,1 24,8 17,7 20,3 22,6 25,4 28,4 20,5 23,4 26,1 29,3 32,8 22,2 25,4 28,2 31,7 35,5 25,7 29,4 32,7 36,8 41,2 28,4 32,4 36,0 40,5 45,4 31,9 36,4 40,5 45,6 51,0 35,4 40,4 44,9 50,5 56,6 39,7 45,4 50,5 56,8 63,6 44,3 50,6 56,3 63,2 70,8 60,9 59,8 57,8 56,4 54,7 73,3 71,9 69,5 67,9 65,8 79,8 78,3 75,7 73,9 71,7 94,1 92,3 89,3 87,1 84,5 105 103 99,5 97,1 94,2 126 123 119 116 113 139 136 132 129 125 158 155 150 146 142 172 169 163 159 155 195 191 185 181 175 218 214 207 202 196 249 244 236 230 223 273 268 259 253 245 10,1 11,5 12,8 14,4 16,1 12,4 14,1 15,7 17,6 19,8 13,2 15,1 16,8 18,9 21,1 15,6 17,9 19,9 22,3 25,0 17,9 20,5 22,8 25,6 28,7 20,7 23,7 26,3 29,6 33,1 22,4 25,6 28,5 32,0 35,9 26,0 29,7 33,0 37,1 41,6 28,6 32,7 36,4 40,9 45,8 32,2 36,8 40,9 46,0 51,5 35,7 40,8 45,4 51,0 57,1 40,1 45,9 51,0 57,3 64,2 44,7 51,1 56,8 63,9 71,5 66,1 64,9 62,7 61,2 59,3 79,5 78,0 75,4 73,6 71,4 86,5 84,9 82,1 80,1 77,7 102 100 96,8 94,5 91,6 114 112 108 105 102 136 134 129 126 123 151 148 143 140 135 171 168 163 159 154 187 183 177 173 168 212 208 201 196 190 236 232 224 219 212 270 265 256 250 242 296 290 281 274 266 10,2 11,6 12,9 14,5 16,3 12,5 14,3 15,9 17,8 20,0 13,3 15,2 17,0 19,1 21,3 15,8 18,0 20,1 22,6 25,3 18,1 20,7 23,0 25,9 29,0 20,9 23,9 26,6 29,9 33,5 22,6 25,9 28,8 32,3 36,2 26,2 30,0 33,4 37,5 42,0 28,9 33,0 36,8 41,3 46,3 32,5 37,2 41,3 46,5 52,0 36,1 41,2 45,8 51,5 57,7 40,5 46,3 51,5 57,9 64,8 45,1 51,6 57,4 64,5 72,2 Tw= Outlet water temperature °C kWf = Cooling capacity (kW) kWa = Compressor power input (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). 34 TECHNICAL DATA - BASE VERSION (VB) Standard performances in heating mode IP - Low noise setting up (AS) MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 TW 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 -6 (1) -2 (1) OUTDOOR AIR TEMPERATURE (°C W.B.) 2 (1) 6 9 12 15 kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa 38,7 38,0 36,7 35,9 34,8 46,6 45,7 44,2 43,1 41,8 50,7 49,8 48,1 47,0 45,5 59,8 58,7 56,7 55,4 53,7 66,7 65,4 63,3 61,7 59,9 79,9 78,5 75,9 74,0 71,8 88,3 86,7 83,8 81,8 79,3 100 98,6 95,3 93,0 90,2 109 107 104 101 98,2 124 122 118 115 111 139 136 131 128 124 158 155 150 146 142 173 170 165 161 156 9,57 10,9 12,2 13,7 15,3 11,7 13,4 14,9 16,8 18,8 12,6 14,4 16,0 17,9 20,1 14,9 17,0 18,9 21,2 23,8 17,0 19,5 21,7 24,3 27,3 19,7 22,5 25,0 28,1 31,5 21,3 24,4 27,1 30,5 34,1 24,7 28,2 31,4 35,3 39,5 27,2 31,1 34,6 38,9 43,6 30,6 35,0 38,9 43,7 49,0 34,0 38,8 43,2 48,5 54,3 38,2 43,6 48,5 54,5 61,1 42,5 48,6 54,0 60,7 68,0 44,4 43,6 42,1 41,1 39,9 53,4 52,4 50,7 49,5 48,0 58,1 57,1 55,2 53,8 52,2 68,5 67,3 65,1 63,5 61,6 76,4 75,0 72,5 70,8 68,7 91,7 90,0 87,0 84,9 82,3 101 99,4 96,1 93,7 90,9 115 113 109 107 103 125 123 119 116 113 142 139 135 132 128 159 156 151 147 143 181 178 172 168 163 199 195 189 184 179 9,67 11,1 12,3 13,8 15,5 11,9 13,6 15,1 17,0 19,0 12,7 14,5 16,1 18,1 20,3 15,0 17,2 19,1 21,5 24,0 17,2 19,7 21,9 24,6 27,5 19,9 22,7 25,3 28,4 31,8 21,5 24,6 27,4 30,8 34,5 25,0 28,5 31,7 35,7 40,0 27,5 31,4 35,0 39,3 44,0 30,9 35,4 39,3 44,2 49,5 34,3 39,2 43,6 49,0 54,9 38,6 44,1 49,0 55,1 61,7 42,9 49,1 54,6 61,3 68,7 49,0 48,1 46,5 45,4 44,0 59,0 57,9 56,0 54,6 53,0 64,2 63,0 61,0 59,5 57,7 75,7 74,3 71,9 70,1 68,0 84,4 82,9 80,1 78,2 75,8 101 99,4 96,1 93,8 91,0 112 110 106 104 100 127 125 121 118 114 139 136 131 128 124 157 154 149 145 141 175 172 167 162 158 200 196 190 185 180 220 215 208 203 197 9,77 11,2 12,4 14,0 15,6 12,0 13,7 15,2 17,1 19,2 12,8 14,7 16,3 18,3 20,5 15,2 17,3 19,3 21,7 24,3 17,4 19,9 22,1 24,8 27,8 20,1 23,0 25,6 28,7 32,2 21,8 24,9 27,7 31,1 34,8 25,2 28,8 32,1 36,0 40,4 27,8 31,8 35,3 39,7 44,5 31,3 35,7 39,7 44,6 50,0 34,7 39,6 44,1 49,5 55,4 38,9 44,5 49,5 55,6 62,3 43,4 49,6 55,2 62,0 69,4 50,3 49,4 47,8 46,6 45,2 60,5 59,4 57,4 56,0 54,3 66,0 64,8 62,6 61,1 59,3 77,7 76,2 73,7 71,9 69,7 86,6 85,0 82,2 80,2 77,8 104 102 98,6 96,2 93,3 114 112 109 106 103 131 128 124 121 117 143 140 135 132 128 161 158 153 149 145 180 177 171 167 162 205 201 195 190 184 226 222 214 209 203 9,66 11,0 12,3 13,8 15,5 11,8 13,5 15,0 16,9 18,9 12,7 14,5 16,1 18,1 20,3 14,9 17,0 19,0 21,3 23,9 17,1 19,5 21,7 24,4 27,3 20,0 22,9 25,5 28,6 32,0 21,6 24,7 27,5 30,9 34,6 25,0 28,6 31,8 35,7 40,0 27,4 31,4 34,9 39,2 43,9 31,1 35,5 39,5 44,4 49,7 34,4 39,3 43,7 49,1 55,0 38,9 44,4 49,4 55,5 62,2 43,2 49,4 54,9 61,7 69,1 54,7 53,7 51,9 50,7 49,1 65,7 64,5 62,4 60,9 59,0 71,7 70,4 68,1 66,4 64,4 84,4 82,8 80,1 78,2 75,8 94,2 92,4 89,4 87,2 84,6 113 111 107 105 101 124 122 118 115 112 142 139 135 132 128 155 152 147 143 139 175 172 166 162 157 196 192 186 182 176 223 219 212 207 200 245 241 233 227 220 9,76 11,2 12,4 13,9 15,6 11,9 13,7 15,2 17,1 19,1 12,8 14,6 16,3 18,3 20,5 15,1 17,2 19,1 21,5 24,1 17,3 19,7 21,9 24,6 27,6 20,2 23,1 25,7 28,9 32,4 21,8 25,0 27,8 31,2 35,0 25,2 28,8 32,1 36,1 40,4 27,7 31,7 35,2 39,6 44,3 31,4 35,9 39,9 44,8 50,2 34,7 39,7 44,1 49,6 55,5 39,2 44,8 49,9 56,1 62,8 43,6 49,9 55,5 62,3 69,8 59,4 58,3 56,4 55,0 53,3 71,4 70,0 67,7 66,1 64,1 77,9 76,4 73,9 72,1 69,9 91,6 89,9 87,0 84,8 82,3 102 100 97,0 94,6 91,8 123 120 116 114 110 135 133 128 125 121 154 151 146 143 138 168 165 160 156 151 190 186 180 176 171 213 209 202 197 191 242 238 230 224 217 266 261 253 247 239 9,85 11,3 12,5 14,1 15,8 12,1 13,8 15,3 17,2 19,3 12,9 14,8 16,4 18,5 20,7 15,2 17,4 19,3 21,7 24,3 17,4 19,9 22,2 24,9 27,9 20,4 23,3 26,0 29,2 32,7 22,1 25,2 28,1 31,5 35,3 25,5 29,1 32,4 36,4 40,8 28,0 32,0 35,6 40,0 44,8 31,7 36,2 40,3 45,3 50,7 35,1 40,1 44,6 50,1 56,1 39,6 45,3 50,4 56,6 63,4 44,1 50,3 56,0 62,9 70,5 64,4 63,2 61,1 59,6 57,9 77,4 76,0 73,5 71,7 69,5 84,5 82,9 80,2 78,2 75,9 99,4 97,6 94,3 92,0 89,3 111 109 105 103 99,6 133 131 126 123 119 147 144 139 136 132 167 164 159 155 150 182 179 173 169 164 206 202 195 191 185 231 227 219 214 207 263 258 249 243 236 289 284 274 268 259 9,95 11,4 12,7 14,2 15,9 12,2 13,9 15,5 17,4 19,5 13,1 14,9 16,6 18,6 20,9 15,4 17,6 19,5 21,9 24,6 17,6 20,1 22,4 25,1 28,1 20,6 23,6 26,2 29,5 33,0 22,3 25,5 28,3 31,8 35,6 25,7 29,4 32,7 36,8 41,2 28,3 32,3 35,9 40,4 45,2 32,0 36,6 40,7 45,7 51,2 35,4 40,5 45,0 50,6 56,6 40,0 45,7 50,9 57,2 64,0 44,5 50,8 56,6 63,6 71,2 Tw= Outlet water temperature °C kWa = Compressor power input (kW) kWf = Cooling capacity (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at -4 2 nominal or maximum speed. A 0.44 x 10 m K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. 35 TECHNICAL DATA - BASE VERSION (VB) Standard performances in heating mode IP - Extra low noise setting up (AX) MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 TW 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 30 35 40 45 50 -6 (1) -2 (1) OUTDOOR AIR TEMPERATURE (°C W.B.) 2 (1) 6 9 12 15 kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa kWt kWa 39,9 39,1 37,8 36,9 35,8 48,0 47,1 45,5 44,4 43,1 52,2 51,3 49,6 48,4 46,9 61,6 60,4 58,4 57,0 55,3 68,7 67,4 65,2 63,6 61,7 82,3 80,8 78,2 76,2 74,0 90,9 89,3 86,3 84,2 81,7 103 102 98,2 95,8 92,9 113 111 107 104 101 128 125 121 118 115 143 140 135 132 128 163 160 154 151 146 179 175 169 165 160 9,67 11,1 12,3 13,8 15,5 11,9 13,6 15,1 16,9 19,0 12,7 14,5 16,1 18,1 20,3 15,0 17,2 19,1 21,5 24,0 17,2 19,7 21,9 24,6 27,5 19,9 22,7 25,3 28,4 31,8 21,5 24,6 27,4 30,8 34,5 25,0 28,5 31,7 35,7 39,9 27,5 31,4 35,0 39,3 44,0 30,9 35,3 39,3 44,2 49,5 34,3 39,2 43,6 49,0 54,9 38,5 44,0 49,0 55,1 61,7 42,9 49,1 54,6 61,3 68,7 45,7 44,9 43,4 42,3 41,1 55,0 54,0 52,2 50,9 49,4 59,9 58,8 56,8 55,5 53,8 70,6 69,3 67,0 65,4 63,4 78,7 77,3 74,7 72,9 70,7 94,4 92,7 89,6 87,4 84,8 104 102 99,0 96,6 93,7 119 116 113 110 107 129 127 123 120 116 146 144 139 136 131 164 161 155 151 147 187 183 177 173 168 205 201 194 190 184 9,77 11,2 12,4 14,0 15,6 12,0 13,7 15,2 17,1 19,2 12,8 14,6 16,3 18,3 20,5 15,2 17,3 19,3 21,7 24,3 17,4 19,9 22,1 24,8 27,8 20,1 23,0 25,5 28,7 32,1 21,8 24,9 27,7 31,1 34,8 25,2 28,8 32,1 36,0 40,4 27,8 31,8 35,3 39,7 44,5 31,2 35,7 39,7 44,6 50,0 34,6 39,6 44,0 49,5 55,4 38,9 44,5 49,5 55,6 62,3 43,4 49,6 55,1 62,0 69,4 50,5 49,6 47,9 46,8 45,4 60,8 59,6 57,7 56,3 54,6 66,2 64,9 62,8 61,3 59,4 78,0 76,5 74,0 72,2 70,0 87,0 85,4 82,5 80,5 78,1 104 102 99,0 96,6 93,7 115 113 109 107 103 131 129 124 121 118 143 140 135 132 128 162 159 153 150 145 181 177 172 167 162 206 202 196 191 185 226 222 215 209 203 9,87 11,3 12,5 14,1 15,8 12,1 13,8 15,4 17,3 19,4 12,9 14,8 16,5 18,5 20,7 15,3 17,5 19,5 21,9 24,5 17,6 20,1 22,3 25,1 28,1 20,3 23,2 25,8 29,0 32,5 22,0 25,1 27,9 31,4 35,2 25,5 29,1 32,4 36,4 40,8 28,1 32,1 35,7 40,1 44,9 31,6 36,1 40,1 45,1 50,5 35,0 40,0 44,5 50,0 56,0 39,3 45,0 50,0 56,2 62,9 43,8 50,1 55,7 62,6 70,1 48,5 47,6 46,0 44,9 43,6 58,3 57,2 55,4 54,0 52,4 63,6 62,4 60,4 58,9 57,1 75,0 73,6 71,1 69,4 67,3 83,6 82,0 79,3 77,4 75,1 100 98,4 95,1 92,8 90,0 111 109 106 103 99,9 126 124 120 117 113 137 135 130 127 123 156 153 148 144 140 174 171 165 161 156 198 194 188 183 178 217 213 206 201 195 9,24 10,6 11,7 13,2 14,8 11,3 12,9 14,3 16,1 18,0 12,2 13,9 15,5 17,4 19,5 14,4 16,4 18,2 20,5 23,0 16,4 18,7 20,8 23,4 26,2 19,3 22,0 24,5 27,5 30,8 20,8 23,8 26,4 29,7 33,3 23,9 27,4 30,4 34,2 38,3 26,3 30,1 33,5 37,6 42,1 30,0 34,2 38,1 42,8 47,9 33,0 37,8 42,0 47,2 52,9 37,4 42,7 47,5 53,4 59,8 41,4 47,4 52,7 59,2 66,3 52,7 51,7 50,0 48,8 47,3 63,4 62,2 60,2 58,7 56,9 69,1 67,9 65,6 64,0 62,1 81,5 80,0 77,3 75,4 73,2 90,9 89,2 86,2 84,1 81,6 109 107 103 101 97,8 121 119 115 112 109 137 135 130 127 123 149 146 142 138 134 169 166 160 157 152 189 186 179 175 170 215 211 204 199 193 236 232 224 218 212 9,33 10,7 11,9 13,3 14,9 11,4 13,0 14,5 16,3 18,2 12,3 14,1 15,6 17,6 19,7 14,5 16,6 18,4 20,7 23,2 16,5 18,9 21,0 23,6 26,5 19,4 22,2 24,7 27,8 31,1 21,0 24,0 26,7 30,0 33,6 24,2 27,6 30,7 34,5 38,7 26,6 30,4 33,8 38,0 42,5 30,3 34,6 38,5 43,2 48,4 33,4 38,1 42,4 47,7 53,4 37,8 43,1 48,0 53,9 60,4 41,9 47,8 53,2 59,8 67,0 57,2 56,2 54,3 53,0 51,4 68,8 67,5 65,3 63,7 61,8 75,1 73,7 71,2 69,5 67,4 88,4 86,8 83,9 81,9 79,4 98,6 96,8 93,6 91,3 88,6 118 116 112 110 106 131 129 125 122 118 149 146 142 138 134 162 159 154 150 145 184 180 174 170 165 205 201 195 190 184 233 229 221 216 209 256 251 243 237 230 9,42 10,8 12,0 13,5 15,1 11,5 13,1 14,6 16,4 18,4 12,4 14,2 15,8 17,7 19,9 14,6 16,7 18,6 20,9 23,4 16,7 19,1 21,2 23,9 26,7 19,6 22,4 25,0 28,1 31,4 21,2 24,2 27,0 30,3 33,9 24,4 27,9 31,0 34,9 39,1 26,8 30,7 34,1 38,4 43,0 30,6 34,9 38,9 43,7 48,9 33,7 38,5 42,8 48,1 53,9 38,1 43,6 48,5 54,5 61,0 42,3 48,3 53,7 60,4 67,6 62,1 60,9 58,9 57,5 55,7 74,6 73,3 70,8 69,1 67,0 81,4 79,9 77,3 75,4 73,1 95,9 94,2 91,1 88,8 86,2 107 105 102 99,1 96,1 128 126 122 119 115 142 140 135 132 128 162 159 154 150 145 176 172 167 163 158 199 195 189 184 179 223 218 211 206 200 253 248 240 234 227 278 273 264 257 250 9,52 10,9 12,1 13,6 15,2 11,6 13,3 14,8 16,6 18,6 12,5 14,3 16,0 17,9 20,1 14,8 16,9 18,8 21,1 23,6 16,9 19,3 21,5 24,1 27,0 19,8 22,7 25,2 28,3 31,7 21,4 24,5 27,2 30,6 34,3 24,7 28,2 31,4 35,2 39,5 27,1 31,0 34,5 38,7 43,4 30,9 35,3 39,2 44,1 49,4 34,0 38,9 43,3 48,6 54,4 38,5 44,0 49,0 55,0 61,6 42,7 48,8 54,3 61,0 68,3 Tw= Outlet water temperature °C kWa = Compressor power input (kW) kWf = Cooling capacity (kW) kWt = Heating capacity (kW) The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at -4 2 nominal or maximum speed. A 0.44 x 10 m K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). (1) : at these temperatures the fans are at maximum speed. 36 TECHNICAL DATA - BASE VERSION (VB) Correction factor for the use of glycol in heating mode ETHYLENE GLYCOL with water produced between 30 ÷ 55 º C. Percentage Of glycol in mass / volume 0/0 10 / 8,9 20 / 18,1 30 / 27,7 40 / 37,5 0 -3,2 -8 -14 -22 CCPT - Heating capacity 1,000 0,995 0,985 0,975 0,970 CCPA - Power input 1,000 1,010 1,015 1,020 1,030 CCQA - Water flow rate 1,000 1,038 1,062 1,091 1,127 CCDP - Water pressure drop 1,000 1,026 1,051 1,077 1,103 0/0 10 / 9,6 20 / 19,4 30 / 29,4 40 / 39,6 0 -3,3 -7 -13 -21 CCPT - Heating capacity 1,000 0,990 0,975 0,965 0,955 CCPA - Power input 1,000 1,010 1,020 1,030 1,040 CCQA - Water flow rate 1,000 1,018 1,032 1,053 1,082 CCDP - Water pressure drop 1,000 1,026 1,051 1,077 1,103 Freezing point [°C] PROPYLENE GLYCOL with water produced between 30 ÷ 55ºC. Percentage Of glycol in mass / volume Freezing point [°C] Based on DESIGN CONDITIONS from the table “performances” extract Heating Capacity (kWtr). Based on type and percentage of glycol extract CCPT, CCQA, CCDP. Then calculate. Pt_brine = kWtr x CCPT Pass_CP_brine = kWa x CCPA Then calculate brine flow rate to the heat recovery exchanger: Q_brine [l/s]=CCQA x (Pt_brine [kW]*0.86/∆T_brine)/3.6 where ΔT_brine is the temperature difference outlet-intlet heat recovery exchanger: ∆T_brine=Twout_brine-Twin_brine With this brine flow rate enter in abscissa on the water pressure drop of the heat recovery then you have Dp_app. Finally you can calculate the actual pressure drop of the brine on heat recovery: Dp_brine =CCDP x Dp_app 37 TECHNICAL DATA - BASE VERSION (VB) Correction factor for the use of glycol in cooling mode ETHYLENE GLYCOL with water produced between 5 ÷ 20 º C. Percentage Of glycol in mass / volume 0/0 10 / 8,9 20 / 18,1 30 / 27,7 40 / 37,5 0 -3,2 -8 -14 -22 CCPF - Cooling capacity 1,00 0,99 0,98 0,97 0,95 CCPA - Power input 1,00 1,00 0,99 0,99 0,98 CCQA - Water flow rate 1,00 1,04 1,08 1,12 1,16 CCDP - Water pressure drop 1,00 1,08 1,16 1,25 1,35 10 / 9,6 20 / 19,4 30 / 29,4 40 / 39,6 Freezing point [°C] PROPYLENE GLYCOL with water produced between 5 ÷ 20 º C. Percentage Of glycol in mass / volume 0/0 Freezing point [°C] 0 -3,3 -7 -13 -21 CCPF - Cooling capacity 1,00 0,98 0,96 0,94 0,92 CCPA - Power input 1,00 0,99 0,98 0,95 0,93 CCQA - Water flow rate 1,00 1,01 1,03 1,06 1,09 CCDP - Water pressure drop 1,00 1,05 1,11 1,22 1,38 Based on outdoor air temperature and leaving water temperature of the evaporator (DESIGN CONDITIONS) from the table “performances” extract Cooling Capacity (kWf) and Compressors Power Input (kWa). Based on type and percentage of glycol extract CCPF, CCPA, CCQA, CCDP. Then calculate. Pf_brine = kWf x CCPF Pass_CP_brine = kWa x CCPA Then calculate brine flow rate of the evaporator: Q_brine_evap [l/s]=CCQA x (Pf_brine [kW]*0.86/ΔT_brine)/3.6 where ΔT_brine is the difference inlet-outlet evaporator water temperature: ΔT_brine=Twin_evap_brine-Twout_evap_brine With this brine flow rate enter in abscissa on the water pressure drop of the evaporator then you have Dp_app. Finally you can calculate the actual pressure drop of the brine on evaporator side: Dp_evap_brine =CCDP x Dp_app Fouling factors The performances supplied with the tables are referred to a fouling factory = 0.44x10-4 m² K/W . For different values of the fouling factory, use the reduction coefficients reported in the following table. Fouling factory (m² K / W) (m² K / W) (m² K / W) 0,44 x 10-4 0,86 x 10-4 1,72 x 10-4 F.c. PF: Correction Factor for Cooling capacity F.c. PA: Correction Factor for compressor power Input 38 F.c. PF 1,00 0,98 0,93 Evaporator F.c. PA 1,00 0,99 0,98 TECHNICAL DATA - BR - BP UNIT Mandatory requirements for BR and BP units BR and BP units must be used with a mixture of water and antifreeze fluid (eg glycol) in a percentage enought to prevent freezing of the mixture under all possible conditions, otherwise it will VOID THE WARRANTY. Please contact our customer service to set the following parameters: → Correction factors to apply to the basic version data. Parameter Default How to calculate Example to set value the value to set with TWE = 0°C AL51 3 °C TWE -4 °C -4 °C TR10 9 °C TWE +2 °C +2 °C TR11 7 °C TWE +2 °C +2 °C HI12 4 °C TWE -3 °C -3 °C HI14 4 °C TWE -3 °C -3 °C Example with TWE = -5°C -9 °C -3 °C -3 °C -8 °C -8 °C TWE= Evaporator outlet desired water temperature ETHYLENE GLYCOL Percentage Of glycol in mass / volume Freezing point [°C] Produced water temperature CCPF - Cooling capacity CCPA - Power input CCQA - Water flow rate CCDP - Pressure drop Percentage Of glycol in mass / volume Freezing point [°C] Produced water temperature CCPF - Cooling capacity CCPA - Power input CCQA - Water flow rate CCDP - Pressure drop Percentage Of glycol in mass / volume Freezing point [°C] Produced water temperature CCPF - Cooling capacity CCPA - Power input CCQA - Water flow rate CCDP - Pressure drop 4 0,912 0,967 1,071 1,090 4 0,899 0,960 1,106 1,140 4 0,884 0,880 1,150 1,190 2 0,855 0,957 1,072 1,095 2 0,842 0,950 1,107 1,145 2 0,827 0,870 1,151 1,195 0 0,798 0,947 1,073 1,100 0 0,785 0,940 1,108 1,150 0 0,770 0,860 1,153 1,200 -2 0,738 0,927 1,075 1,110 20 / 18,1 -8 -4 0,683 0,897 1,076 1,120 -6 - -8 - -10 - -12 - -2 0,725 0,920 1,109 1,155 30 / 27,7 -14 -4 0,670 0,890 1,110 1,160 -6 0,613 0,870 1,111 1,175 -8 0,562 0,840 1,112 1,190 -10 - -12 - -2 0,710 0,840 1,154 1,210 40 / 37,5 -22 -4 0,655 0,810 1,155 1,220 -6 0,598 0,790 1,157 1,235 -8 0,547 0,760 1,158 1,250 -10 0,490 0,724 1,159 1,269 -12 0,437 0,686 1,161 1,290 -2 0,690 0,900 1,039 1,130 20 / 19,4 -7 -4 0,641 0,875 1,040 1,140 -6 - -8 - -10 - -12 - -2 0,680 0,888 1,069 1,200 30 / 29,4 -13 -4 0,630 0,865 1,069 1,210 -6 0,583 0,838 1,068 1,255 -8 0,536 0,810 1,067 1,300 -10 - -12 - -2 0,670 0,820 1,110 1,375 40 / 39,6 -21 -4 0,620 0,795 1,108 1,430 -6 0,570 0,773 1,107 1,500 -8 0,520 0,750 1,105 1,570 -10 0,478 0,714 1,103 1,642 -12 0,438 0,680 1,101 1,724 PROPYLENE GLYCOL Percentage Of glycol in mass / volume Freezing point [°C] Produced water temperature CCPF - Cooling capacity CCPA - Power input CCQA - Water flow rate CCDP - Pressure drop Percentage Of glycol in mass / volume Freezing point [°C] Produced water temperature CCPF - Cooling capacity CCPA - Power input CCQA - Water flow rate CCDP - Pressure drop Percentage Of glycol in mass / volume Freezing point [°C] Produced water temperature CCPF - Cooling capacity CCPA - Power input CCQA - Water flow rate CCDP - Pressure drop 4 0,874 0,945 1,037 1,110 4 0,869 0,935 1,072 1,160 4 0,848 0,865 1,116 1,230 2 0,807 0,935 1,038 1,115 2 0,799 0,923 1,071 1,175 2 0,784 0,855 1,114 1,275 0 0,740 0,925 1,039 1,120 0 0,729 0,910 1,070 1,190 0 0,719 0,845 1,112 1,320 Based on leaving water temperature of the evaporator and condensing temperature = 7°C from the table “performances” extract Cooling Capacity (kWf) and Compressors Power Input (kWa). Based on type and percentage of glycol extract CCPF, CCPA, CCQA, CCDP. Then calculate. Pf_brine = kWf x CCPF Pass_CP_brine = kWa x CCPA Then calculate brine flow rate: Q_brine_evap [l/s]=CCQA x (Pf_brine [kW]*0.86/DT_brine)/3.6 where DT_brine is the difference between inlet-outlet evaporator water temperature: DT_brine=Twin_evap_brine-Twout_evap_brine With this brine flow rate enter in abscissa on the water pressure drop of the evaporator then you have Dp_app. Finally you can calculate the actual pressure drop of the brine on evaporator side: Dp_evap_brine =CCDP x Dp_app 39 TECHNICAL DATA - IR DESUPERHEATER VERSION (VD) Base setting up AB Heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VD(1) Power input compressor VD (1) Total power input VD (1) EER VD (1) Water flow rate VD (1) Water pressure drop VD (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 1,20 1,20 1,20 1,50 1,50 N° kPa l 131 39,3 42,9 3,05 6,26 52 38,4 1,83 14 149 43,7 49,1 3,03 7,12 51 44,0 2,10 18 164 49,0 54,4 3,01 7,84 52 49,3 2,36 22 187 54,3 61,5 3,04 8,93 52 55,4 2,65 18 208 60,9 68,1 3,05 9,94 54 61,3 2,93 21 kW kW kW l/s kPa kW l/s kPa 0,55 0,55 0,55 0,55 0,55 Brazed plates 1 600 0,75 0,75 1,20 47,1 13,8 15,0 3,14 2,25 43 13,5 0,65 6 55,6 16,6 17,8 3,12 2,66 60 15,7 0,75 9 60,9 17,9 19,7 3,09 2,91 59 17,6 0,84 11 71,6 21,0 22,8 3,14 3,42 55 20,0 0,96 14 81,8 24,8 26,6 3,08 3,91 54 23,6 1,13 19 94,6 27,4 31,0 3,05 4,52 52 27,1 1,29 15 106 30,7 34,3 3,09 5,06 50 30,4 1,45 18 116 34,4 38,0 3,05 5,54 47 34,4 1,64 11 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. Low noise setting up AS Heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VD(1) Power input compressor VD (1) Total power input VD (1) EER VD (1) Water flow rate VD (1) Water pressure drop VD (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 1,20 1,20 1,20 1,50 1,50 N° kPa l 127 42,1 44,6 2,85 6,07 49 38,4 1,83 14 145 47,1 50,9 2,85 6,93 48 44,0 2,10 18 159 52,7 56,5 2,81 7,60 49 49,3 2,36 22 182 58,9 63,9 2,85 8,70 49 55,4 2,65 18 202 65,8 70,8 2,85 9,65 51 61,3 2,93 21 kW kW kW l/s kPa kW l/s kPa 0,55 0,55 0,55 0,55 0,55 Brazed plates 1 600 0,75 0,75 1,20 45,7 14,7 15,6 2,93 2,18 41 13,5 0,65 6 54,0 17,7 18,5 2,92 2,58 57 15,7 0,75 9 59,1 19,2 20,5 2,88 2,82 56 17,6 0,84 11 69,4 22,4 23,7 2,93 3,32 52 20,0 0,96 14 79,4 26,5 27,7 2,87 3,79 51 23,6 1,13 19 91,7 29,7 32,2 2,85 4,38 49 27,1 1,29 15 102 33,1 35,6 2,87 4,87 46 30,4 1,45 18 113 37,1 39,6 2,85 5,40 45 34,4 1,64 11 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. Extra low noise setting up AX Heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VD(1) Power input compressor VD (1) Total power input VD (1) EER VD (1) Water flow rate VD (1) Water pressure drop VD (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 1,20 1,20 1,20 1,50 1,50 N° kPa l 124 43,7 45,9 2,70 5,92 46 38,4 1,83 14 140 48,7 51,9 2,70 6,69 45 44,0 2,10 18 156 54,4 57,7 2,70 7,45 47 49,3 2,36 22 177 61,4 65,7 2,69 8,46 46 55,4 2,65 18 197 68,5 72,8 2,71 9,41 48 61,3 2,93 21 kW kW kW l/s kPa kW l/s kPa 0,55 0,55 0,55 0,55 0,55 Brazed plates 1 600 0,75 0,75 1,20 44,6 14,9 15,7 2,84 2,13 39 13,5 0,65 6 52,7 18,1 18,9 2,79 2,52 54 15,7 0,75 9 57,7 20,0 21,1 2,73 2,76 53 17,6 0,84 11 67,8 23,1 24,2 2,80 3,24 49 20,0 0,96 14 77,5 27,5 28,5 2,72 3,70 48 23,6 1,13 19 89,6 29,1 31,3 2,86 4,28 46 27,1 1,29 15 100 34,4 36,6 2,73 4,78 44 30,4 1,45 18 110 38,5 40,7 2,70 5,26 43 34,4 1,64 11 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. 40 TECHNICAL DATA - IR DESUPERHEATER VERSION (VD) Performances MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TWR 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 OUTDOOR AIR TEMPERATURE (°C D.B.) 25 30 35 40 45 kWtr = Recovered HEATING CAPACITY [kW] 11,4 11,3 11,0 10,5 9,72 8,70 7,46 5,97 4,25 13,3 13,2 12,8 12,2 11,3 10,1 8,67 6,94 4,94 14,9 14,8 14,4 13,7 12,7 11,3 9,72 7,78 5,54 16,9 16,8 16,3 15,5 14,4 12,9 11,0 8,85 6,30 19,9 19,8 19,3 18,3 17,0 15,2 13,0 10,4 7,43 22,9 22,8 22,1 21,1 19,5 17,5 15,0 12,0 8,53 25,7 25,5 24,8 23,6 21,9 19,6 16,8 13,4 9,57 12,9 12,8 12,5 11,9 11,0 9,86 8,45 6,76 4,82 15,0 14,9 14,5 13,8 12,8 11,5 9,82 7,87 5,60 16,8 16,7 16,3 15,5 14,3 12,9 11,0 8,82 6,28 19,1 19,0 18,5 17,6 16,3 14,6 12,5 10,0 7,13 22,6 22,4 21,8 20,8 19,2 17,2 14,8 11,8 8,42 25,9 25,8 25,1 23,9 22,1 19,8 17,0 13,6 9,67 29,1 28,9 28,1 26,8 24,8 22,2 19,0 15,2 10,8 14,7 14,6 14,2 13,5 12,5 11,2 9,59 7,68 5,47 17,1 17,0 16,5 15,7 14,5 13,0 11,2 8,94 6,36 19,1 19,0 18,5 17,6 16,3 14,6 12,5 10,0 7,13 21,7 21,6 21,0 20,0 18,5 16,6 14,2 11,4 8,10 25,6 25,5 24,8 23,6 21,9 19,6 16,8 13,4 9,56 29,5 29,3 28,5 27,1 25,1 22,5 19,3 15,4 11,0 33,0 32,8 32,0 30,4 28,2 25,2 21,6 17,3 12,3 16,6 16,5 16,1 15,3 14,2 12,7 10,9 8,71 6,20 19,3 19,2 18,7 17,8 16,5 14,8 12,6 10,1 7,21 21,7 21,5 21,0 19,9 18,5 16,5 14,2 11,4 8,08 24,6 24,5 23,8 22,7 21,0 18,8 16,1 12,9 9,18 29,1 28,9 28,1 26,7 24,8 22,2 19,0 15,2 10,8 33,4 33,2 32,3 30,7 28,4 25,5 21,8 17,5 12,4 37,4 37,2 36,2 34,4 31,9 28,6 24,5 19,6 14,0 18,8 18,7 18,2 17,3 16,0 14,4 12,3 9,85 7,01 21,9 21,7 21,2 20,1 18,6 16,7 14,3 11,5 8,15 24,5 24,4 23,7 22,6 20,9 18,7 16,0 12,8 9,14 27,9 27,7 27,0 25,6 23,7 21,3 18,2 14,6 10,4 32,9 32,7 31,8 30,3 28,0 25,1 21,5 17,2 12,3 37,8 37,5 36,5 34,7 32,2 28,8 24,7 19,8 14,1 42,4 42,1 41,0 39,0 36,1 32,3 27,7 22,2 15,8 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TWR 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 OUTDOOR AIR TEMPERATURE (°C D.B.) 25 30 35 40 45 kWtr = Recovered HEATING CAPACITY [kW] 29,1 28,9 28,1 26,7 24,8 22,2 19,0 15,2 10,8 32,4 32,2 31,4 29,8 27,6 24,8 21,2 17,0 12,1 37,2 36,9 36,0 34,2 31,7 28,4 24,3 19,5 13,9 41,6 41,4 40,3 38,3 35,5 31,8 27,2 21,8 15,5 46,8 46,5 45,3 43,1 39,9 35,7 30,6 24,5 17,4 51,8 51,5 50,1 47,6 44,1 39,5 33,9 27,1 19,3 32,9 32,7 31,8 30,3 28,0 25,1 21,5 17,2 12,3 36,7 36,5 35,5 33,8 31,3 28,0 24,0 19,2 13,7 42,1 41,9 40,7 38,7 35,9 32,1 27,5 22,0 15,7 47,2 46,9 45,6 43,4 40,2 36,0 30,8 24,7 17,6 53,0 52,7 51,3 48,8 45,2 40,5 34,7 27,8 19,8 58,7 58,3 56,7 54,0 50,0 44,8 38,4 30,7 21,9 37,4 37,2 36,2 34,4 31,9 28,5 24,4 19,6 13,9 41,7 41,5 40,4 38,4 35,6 31,9 27,3 21,9 15,6 47,8 47,5 46,3 44,0 40,7 36,5 31,3 25,0 17,8 53,6 53,3 51,8 49,3 45,7 40,9 35,0 28,1 20,0 60,2 59,9 58,3 55,4 51,3 46,0 39,4 31,5 22,4 66,6 66,2 64,5 61,3 56,8 50,9 43,6 34,9 24,8 42,4 42,1 41,0 39,0 36,1 32,3 27,7 22,2 15,8 47,3 47,0 45,8 43,5 40,3 36,1 30,9 24,8 17,6 54,2 53,9 52,4 49,9 46,2 41,4 35,4 28,4 20,2 60,7 60,4 58,7 55,9 51,7 46,3 39,7 31,8 22,6 68,2 67,8 66,0 62,8 58,1 52,1 44,6 35,7 25,4 75,5 75,0 73,0 69,5 64,3 57,6 49,4 39,5 28,1 47,9 47,6 46,4 44,1 40,8 36,6 31,3 25,1 17,9 53,5 53,2 51,8 49,2 45,6 40,8 35,0 28,0 19,9 61,3 60,9 59,3 56,4 52,2 46,8 40,1 32,1 22,9 68,7 68,3 66,5 63,2 58,5 52,4 44,9 36,0 25,6 77,2 76,7 74,7 71,0 65,8 58,9 50,5 40,4 28,8 85,4 84,9 82,6 78,6 72,8 65,2 55,8 44,7 31,8 kWtr = Recovery heat capacity TWR = Desuperheater outlet waterl temperature, ∆tin-out= 5°C The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). 41 TECHNICAL DATA - IP DESUPERHEATER VERSION (VD) Base setting up AB Heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VD(1) Power input compressor VD (1) Total power input VD (1) EER VD (1) Water flow rate VD (1) Water pressure drop VD (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 1,20 1,20 1,20 1,50 1,50 N° kPa l 127 38,8 42,4 3,00 6,07 49 37,1 1,77 13 144 42,6 48,0 3,00 6,88 48 42,4 2,03 17 160 48,3 53,7 2,98 7,64 49 47,5 2,27 21 185 53,4 60,6 3,05 8,84 51 52,4 2,50 16 206 60,6 67,8 3,04 9,84 53 58,1 2,78 19 kW kW kW l/s kPa kW l/s kPa 0,55 0,55 0,55 0,55 0,55 Brazed plates 1 600 0,75 0,75 1,20 45,6 13,6 14,8 3,08 2,18 41 13,0 0,62 6 55,0 16,8 18,0 3,06 2,63 59 15,2 0,73 8 59,8 17,8 19,6 3,05 2,86 57 17,0 0,81 10 69,9 21,1 22,9 3,05 3,34 53 19,4 0,93 13 77,1 24,0 25,8 2,99 3,68 48 22,9 1,09 18 92,8 27,2 30,8 3,01 4,43 50 26,2 1,25 14 103 30,5 34,1 3,02 4,92 47 29,2 1,40 17 114 34,3 37,9 3,01 5,45 46 33,2 1,59 10 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. NOTE : THE HEATING CAPACITY RECOVERED BY THE DESUPERHEATER EXCLUSIVELY REFERS TO UNITS OPERATING IN THE COOLING MODE. Low noise setting up AS Heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VD(1) Power input compressor VD (1) Total power input VD (1) EER VD (1) Water flow rate VD (1) Water pressure drop VD (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 1,20 1,20 1,20 1,50 1,50 N° kPa l 122 42,4 44,9 2,72 5,83 45 37,1 1,77 13 137 47,0 50,8 2,70 6,55 43 42,4 2,03 17 154 53,1 56,8 2,71 7,36 46 47,5 2,27 21 178 59,1 64,1 2,78 8,50 47 52,4 2,50 16 198 66,8 71,9 2,75 9,46 49 58,1 2,78 19 kW kW kW l/s kPa kW l/s kPa 0,55 0,55 0,55 0,55 0,55 Brazed plates 1 600 0,75 0,75 1,20 43,7 14,6 15,4 2,84 2,09 37 13,0 0,62 6 52,8 18,2 19,1 2,76 2,52 54 15,2 0,73 8 57,4 19,5 20,8 2,76 2,74 53 17,0 0,81 10 67,1 23,0 24,2 2,77 3,21 49 19,4 0,93 13 73,9 26,0 27,3 2,71 3,53 44 22,9 1,09 18 89,0 30,1 32,6 2,73 4,25 46 26,2 1,25 14 98,8 33,6 36,1 2,74 4,72 43 29,2 1,40 17 110 37,6 40,2 2,74 5,26 43 33,2 1,59 10 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. NOTE : THE HEATING CAPACITY RECOVERED BY THE DESUPERHEATER EXCLUSIVELY REFERS TO UNITS OPERATING IN THE COOLING MODE. Extra low noise setting up AX Heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VD(1) Power input compressor VD (1) Total power input VD (1) EER VD (1) Water flow rate VD (1) Water pressure drop VD (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 1,20 1,20 1,20 1,50 1,50 N° kPa l 120 45,2 47,4 2,53 5,73 43 37,1 1,77 13 135 50,4 53,7 2,51 6,45 42 42,4 2,03 17 151 56,8 60,1 2,51 7,21 44 47,5 2,27 21 174 63,4 67,8 2,57 8,31 45 52,4 2,50 16 193 71,6 75,9 2,54 9,22 47 58,1 2,78 19 kW kW kW l/s kPa kW l/s kPa 0,55 0,55 0,55 0,55 0,55 Brazed plates 1 600 0,75 0,75 1,20 42,8 15,7 16,4 2,61 2,04 36 13,0 0,62 6 51,7 19,4 20,1 2,57 2,47 52 15,2 0,73 8 56,3 20,9 21,9 2,57 2,69 51 17,0 0,81 10 65,7 24,5 25,6 2,57 3,14 46 19,4 0,93 13 72,5 27,7 28,8 2,52 3,46 42 22,9 1,09 18 87,2 32,2 34,4 2,53 4,17 44 26,2 1,25 14 96,8 35,9 38,1 2,54 4,62 41 29,2 1,40 17 107 40,3 42,4 2,52 5,11 40 33,2 1,59 10 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. 42 NOTE : THE HEATING CAPACITY RECOVERED BY THE DESUPERHEATER EXCLUSIVELY REFERS TO UNITS OPERATING IN THE COOLING MODE. TECHNICAL DATA - IP DESUPERHEATER VERSION (VD) Performances MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TWR 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 OUTDOOR AIR TEMPERATURE (°C D.B.) 25 30 35 40 45 kWtr = Recovered HEATING CAPACITY [kW] 11,0 10,9 10,6 10,1 9,36 8,38 7,18 5,75 4,09 12,8 12,8 12,4 11,8 10,9 9,80 8,39 6,72 4,79 14,4 14,3 13,9 13,2 12,2 11,0 9,39 7,52 5,35 16,4 16,3 15,9 15,1 14,0 12,5 10,7 8,58 6,11 19,3 19,2 18,7 17,8 16,5 14,8 12,6 10,1 7,21 22,1 22,0 21,4 20,4 18,9 16,9 14,5 11,6 8,25 24,7 24,5 23,9 22,7 21,0 18,8 16,1 12,9 9,19 12,4 12,4 12,0 11,4 10,6 9,50 8,13 6,51 4,64 14,5 14,5 14,1 13,4 12,4 11,1 9,51 7,62 5,42 16,3 16,2 15,7 15,0 13,9 12,4 10,6 8,52 6,06 18,6 18,5 18,0 17,1 15,8 14,2 12,1 9,72 6,92 21,9 21,8 21,2 20,2 18,7 16,7 14,3 11,5 8,17 25,1 24,9 24,3 23,1 21,4 19,1 16,4 13,1 9,35 27,9 27,8 27,0 25,7 23,8 21,3 18,3 14,6 10,4 14,1 14,0 13,7 13,0 12,0 10,8 9,24 7,40 5,27 16,5 16,4 16,0 15,2 14,1 12,6 10,8 8,65 6,16 18,5 18,4 17,9 17,0 15,7 14,1 12,1 9,68 6,89 21,1 21,0 20,4 19,4 18,0 16,1 13,8 11,0 7,86 24,9 24,7 24,1 22,9 21,2 19,0 16,3 13,0 9,28 28,5 28,3 27,5 26,2 24,3 21,7 18,6 14,9 10,6 31,7 31,5 30,7 29,2 27,0 24,2 20,7 16,6 11,8 16,0 15,9 15,5 14,7 13,6 12,2 10,5 8,38 5,97 18,7 18,6 18,1 17,2 16,0 14,3 12,2 9,80 6,98 20,9 20,8 20,3 19,3 17,8 16,0 13,7 11,0 7,80 23,9 23,8 23,1 22,0 20,4 18,2 15,6 12,5 8,91 28,2 28,0 27,3 25,9 24,0 21,5 18,4 14,8 10,5 32,3 32,1 31,2 29,7 27,5 24,6 21,1 16,9 12,0 36,0 35,7 34,8 33,1 30,6 27,4 23,5 18,8 13,4 18,1 18,0 17,5 16,7 15,4 13,8 11,8 9,48 6,75 21,2 21,1 20,5 19,5 18,0 16,2 13,8 11,1 7,89 23,7 23,5 22,9 21,8 20,2 18,1 15,5 12,4 8,83 27,0 26,9 26,1 24,9 23,0 20,6 17,7 14,2 10,1 31,9 31,7 30,9 29,4 27,2 24,4 20,9 16,7 11,9 36,5 36,3 35,3 33,6 31,1 27,9 23,9 19,1 13,6 40,7 40,4 39,4 37,4 34,7 31,1 26,6 21,3 15,2 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TWR 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 30 35 40 45 50 55 60 65 70 OUTDOOR AIR TEMPERATURE (°C D.B.) 25 30 35 40 45 kWtr = Recovered HEATING CAPACITY [kW] 28,0 27,9 27,1 25,8 23,9 21,4 18,3 14,7 10,5 31,3 31,2 30,3 28,8 26,7 23,9 20,5 16,4 11,7 35,8 35,6 34,6 33,0 30,5 27,3 23,4 18,8 13,4 40,1 39,9 38,8 36,9 34,2 30,6 26,2 21,0 15,0 44,3 44,0 42,8 40,7 37,7 33,8 28,9 23,2 16,5 49,1 48,8 47,5 45,2 41,8 37,5 32,1 25,7 18,3 31,8 31,6 30,7 29,2 27,1 24,2 20,8 16,6 11,8 35,5 35,3 34,3 32,7 30,2 27,1 23,2 18,6 13,2 40,6 40,3 39,3 37,3 34,6 31,0 26,5 21,2 15,1 45,5 45,2 44,0 41,8 38,7 34,7 29,7 23,8 16,9 50,1 49,8 48,5 46,1 42,7 38,3 32,8 26,3 18,7 55,6 55,3 53,8 51,2 47,4 42,4 36,4 29,1 20,7 36,1 35,9 34,9 33,2 30,7 27,5 23,6 18,9 13,5 40,3 40,1 39,0 37,1 34,4 30,8 26,4 21,1 15,0 46,1 45,8 44,6 42,4 39,3 35,2 30,1 24,1 17,2 51,6 51,3 49,9 47,5 44,0 39,4 33,8 27,0 19,2 56,9 56,6 55,1 52,4 48,5 43,5 37,2 29,8 21,2 63,1 62,8 61,1 58,1 53,8 48,2 41,3 33,1 23,5 40,9 40,6 39,6 37,6 34,8 31,2 26,7 21,4 15,2 45,7 45,4 44,2 42,0 38,9 34,9 29,9 23,9 17,0 52,2 51,9 50,5 48,0 44,5 39,9 34,1 27,3 19,5 58,5 58,2 56,6 53,8 49,8 44,7 38,2 30,6 21,8 64,5 64,2 62,4 59,4 55,0 49,3 42,2 33,8 24,1 71,6 71,1 69,2 65,8 61,0 54,6 46,8 37,5 26,7 46,3 46,0 44,7 42,6 39,4 35,3 30,2 24,2 17,2 51,7 51,4 50,0 47,6 44,0 39,5 33,8 27,1 19,3 59,1 58,7 57,2 54,4 50,3 45,1 38,6 30,9 22,0 66,2 65,8 64,0 60,9 56,4 50,5 43,3 34,7 24,7 73,0 72,6 70,6 67,2 62,2 55,7 47,7 38,2 27,2 80,9 80,5 78,3 74,5 69,0 61,8 52,9 42,4 30,2 kWtr = Recovery heat capacity TWR = Desuperheater outlet waterl temperature, ∆tin-out= 5°C The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal -4 2 or maximum speed. A 0.44 x 10 m K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). 43 TECHNICAL DATA - IR RECOVERY VERSION (VR) Base setting up AB Heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VR (1) Total power input VR (1) EER VR (1) Water flow rate VR (1) Water pressure drop VR (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 7,49 8,74 9,67 10,9 12,6 N° kPa l 131 38,9 3,37 6,26 52 168 8,03 52 149 43,2 3,45 7,12 51 190 9,08 51 164 48,5 3,38 7,84 52 210 10,0 52 187 53,8 3,48 8,93 52 238 11,4 55 208 60,3 3,45 9,94 54 265 12,7 55 kW kW l/s kPa kW l/s kPa 3,61 3,61 4,56 5,42 6,27 Brazed plates 1 600 5,46 5,93 6,86 47,1 13,6 3,46 2,25 43 60,0 2,87 35 55,6 16,4 3,39 2,66 60 71,2 3,40 49 60,9 17,8 3,42 2,91 59 77,8 3,72 41 71,6 20,8 3,44 3,42 55 91,4 4,37 45 81,8 24,6 3,33 3,91 54 105 5,02 50 94,6 27,1 3,49 4,52 52 120 5,73 48 106 30,3 3,50 5,06 50 135 6,45 52 116 34,1 3,40 5,54 47 148 7,07 47 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. Low noise setting up AS Recovery heat exchanger specifications Frame Model 40.2 Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VR (1) Total power input VR (1) EER VR (1) Water flow rate VR (1) Water pressure drop VR (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 7,49 8,74 9,67 10,9 12,6 N° kPa l 131 38,9 3,37 6,26 52 168 8,03 52 149 43,2 3,45 7,12 51 190 9,08 51 164 48,5 3,38 7,84 52 210 10,0 52 187 53,8 3,48 8,93 52 238 11,4 55 208 60,3 3,45 9,94 54 265 12,7 55 kW kW l/s kPa kW l/s kPa 3,61 3,61 4,56 5,42 6,27 Brazed plates 1 600 5,46 5,93 6,86 47,1 13,6 3,46 2,25 43 60,0 2,87 35 55,6 16,4 3,39 2,66 60 71,2 3,40 49 60,9 17,8 3,42 2,91 59 77,8 3,72 41 71,6 20,8 3,44 3,42 55 91,4 4,37 45 81,8 24,6 3,33 3,91 54 105 5,02 50 94,6 27,1 3,49 4,52 52 120 5,73 48 106 30,3 3,50 5,06 50 135 6,45 52 116 34,1 3,40 5,54 47 148 7,07 47 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. Extra low noise setting up AX Recovery heat exchanger specifications Frame Model Type of recovery exchanger Quantity Max. operating pressure on wet side Total water content of recovery exchangers Unit specification Cooling capacity VR (1) Total power input VR (1) EER VR (1) Water flow rate VR (1) Water pressure drop VR (1) Recovered heating capacity (1) Recovered water flow rate (1) Recovered water pressure drop (1) 40.2 50.2 1 60.2 70.2 80.2 2 3 4 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 U.M. 7,49 8,74 9,67 10,9 12,6 N° kPa l 131 38,9 3,37 6,26 52 168 8,03 52 149 43,2 3,45 7,12 51 190 9,08 51 164 48,5 3,38 7,84 52 210 10,0 52 187 53,8 3,48 8,93 52 238 11,4 55 208 60,3 3,45 9,94 54 265 12,7 55 kW kW l/s kPa kW l/s kPa 3,61 3,61 4,56 5,42 6,27 Brazed plates 1 600 5,46 5,93 6,86 47,1 13,6 3,46 2,25 43 60,0 2,87 35 55,6 16,4 3,39 2,66 60 71,2 3,40 49 60,9 17,8 3,42 2,91 59 77,8 3,72 41 71,6 20,8 3,44 3,42 55 91,4 4,37 45 81,8 24,6 3,33 3,91 54 105 5,02 50 94,6 27,1 3,49 4,52 52 120 5,73 48 106 30,3 3,50 5,06 50 135 6,45 52 116 34,1 3,40 5,54 47 148 7,07 47 (1): The data refer to: Water temperature: evaporator inlet :12°C - evaporator outlet: 7°C, Outdoor air temperature 35°C. The data refer to: Water temperature: recovery inlet :40°C - recovery outlet: 45°C. 44 TECHNICAL DATA - IR RECOVERY VERSION (VR) Performances MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 TWE 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 TWR - RECOVERY TEMPERATURE (°C) 35 40 45 50 55 kWtr = Recovered HEATING CAPACITY [kW] 60,7 62,2 63,7 65,3 66,8 68,3 69,9 71,4 71,9 73,7 75,5 77,3 79,1 80,9 82,8 84,6 78,6 80,6 82,5 84,5 86,5 88,5 90,5 92,5 92,2 94,6 96,9 99,2 102 104 106 109 106 109 111 114 117 119 122 125 122 125 128 131 134 137 140 143 136 140 143 147 150 154 157 160 59,0 60,5 61,9 63,4 64,8 66,3 67,7 69,2 70,0 71,7 73,4 75,1 76,8 78,6 80,3 82,0 76,4 78,3 80,2 82,1 84,0 85,9 87,7 89,6 89,7 91,9 94,2 96,4 98,6 101 103 105 103 106 108 111 113 116 118 121 118 121 124 127 130 133 136 139 133 136 139 142 146 149 152 156 57,3 58,7 60,0 61,4 62,8 64,2 65,6 67,0 68,0 69,6 71,2 72,9 74,5 76,1 77,8 79,4 74,2 76,0 77,8 79,6 81,4 83,2 85,0 86,7 87,2 89,2 91,4 93,4 95,5 97,6 99,7 102 100 103 105 108 110 112 115 117 115 118 120 123 126 129 131 134 129 132 135 138 141 144 147 150 55,6 56,9 58,2 59,5 60,8 62,1 63,4 64,7 66,0 67,5 69,1 70,6 72,1 73,7 75,2 76,8 72,0 73,7 75,4 77,1 78,8 80,5 82,2 83,8 84,6 86,5 88,5 90,5 92,5 94,5 96,4 98,4 97,5 100 102 104 107 109 111 113 111 114 117 119 122 124 127 130 125 128 131 134 137 139 142 145 53,9 55,2 56,4 57,6 58,8 60,1 61,3 62,5 64,1 65,5 67,0 68,4 69,9 71,3 72,8 74,2 69,9 71,5 73,1 74,7 76,3 77,8 79,4 81,0 82,1 83,9 85,8 87,6 89,5 91,4 93,2 95,1 94,7 96,8 99,0 101 103 105 108 110 108 110 113 115 118 120 123 125 121 124 127 129 132 135 138 140 MOD. 115.2 130.2 145.2 160.2 180.2 200.2 TWE 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 TWR - RECOVERY TEMPERATURE (°C) 35 40 45 50 55 kWtr = Recovered HEATING CAPACITY [kW] 150 154 158 162 165 169 173 177 169 174 178 182 187 191 195 199 192 196 201 206 211 216 221 226 212 218 223 228 234 239 244 250 241 247 253 259 265 271 277 283 268 275 281 288 295 302 309 315 146 150 153 157 161 164 168 171 165 169 173 177 181 185 189 193 186 191 196 200 205 209 214 219 207 212 217 222 227 232 237 242 234 240 246 251 257 263 269 275 261 267 273 280 286 293 299 306 142 145 148 152 156 159 163 166 160 164 168 172 176 180 183 187 181 185 190 194 198 203 207 212 201 206 210 215 220 225 230 234 227 233 238 244 249 255 260 266 253 259 265 271 277 284 290 296 138 141 144 148 151 154 157 160 156 159 163 167 170 174 177 181 176 180 184 188 192 196 200 204 195 199 204 209 213 218 222 227 220 226 231 236 241 246 252 257 246 251 257 263 269 274 280 286 134 137 140 143 146 149 152 155 151 155 158 161 165 168 172 175 170 174 178 182 186 190 194 198 189 193 198 202 206 211 215 219 214 219 224 228 233 238 243 248 238 244 249 254 260 265 271 276 kWtr = Recovery heat capacity TWE= Evaporator outlet water temperature °C TWR = Desuperheater outlet waterl temperature, ∆tin-out= 5°C The standard performances refer to a 5°C temperature difference between the water entering and leaving the heat exchanger and to operation of the unit with all fans at nominal or maximum speed. A 0.44 x 10-4 m2 K/W fouling factor has also been considered with the unit installed at zero meters above sea level (Pb = 1013mbar). The performances are declared no considering any correction due to water flow rate and water side pressure drop (gross performance). 45 NOISE LEVELS Open field Q=2 The noise levels refer to units operating in the nominal conditions (A35W7), due to a change of external air temperature noise levels may change to ensure proper functioning of the unit within operating range. The acoustic pressure levels are calculated 1/ 5 / 10 meters away from the outer surface of the unit operating in the free field and resting on a reflecting surface (directional factor of 2). SWL = Sound power levels, with reference to 1x10-12 W. The Total sound power level in dB(A) measured in compliance with ISO 9614 standards, is certified according to the Eurovent certification program. Eurovent certification (E) exclusively refers to the Total Sound Power in db(A), which is therefore the only binding acoustic specification (the values of the Octave bands in the table are indicative). SPL = Sound pressure levels, with reference to 2x10-5 Pa. The sound pressure levels are values calculated by applying the ISO-3744 relation (Eurovent 8/1). Base setting up AB MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 63 85,4 85,4 89,4 91,2 91,2 92,2 92,2 92,2 92,4 94,2 94,2 92,4 92,4 125 88,3 88,3 87,0 88,9 88,9 89,9 89,9 89,9 90,0 91,9 91,9 90,1 90,1 250 84,6 84,6 84,8 86,4 86,4 87,4 87,4 87,4 87,8 89,4 89,4 88,6 88,6 SWL (dB) Octave bands (Hz) 500 1000 79,8 76,3 79,8 76,3 80,3 77,4 82,3 78,0 82,3 78,0 83,3 79,0 83,3 79,0 83,3 79,0 83,3 80,4 85,3 81,0 85,3 81,0 86,0 83,2 86,0 83,2 250 81,0 81,0 82,6 83,6 83,6 84,6 84,6 84,6 84,8 86,4 86,4 87,4 87,4 SWL (dB) Octave bands (Hz) 500 1000 77,0 73,5 77,0 73,5 77,8 74,3 78,8 75,3 78,8 75,3 79,8 76,3 79,8 76,3 79,8 76,3 80,3 77,4 82,3 78,0 82,3 78,0 83,3 79,0 83,3 79,0 SWL 2000 69,8 69,8 73,8 71,6 71,6 72,6 72,6 72,6 76,8 74,6 74,6 77,8 77,8 4000 61,2 61,2 65,3 64,0 64,0 65,0 65,0 65,0 68,3 67,0 67,0 71,2 71,2 8000 52,3 52,3 56,0 55,6 55,6 56,6 56,6 56,6 59,0 58,6 58,6 62,8 62,8 dB 92 92 93 94 94 95 95 95 96 97 97 96 96 dB(A)(E) 82 82 83 84 84 85 85 85 86 87 87 88 88 SPL dB(A) 1m 64 64 65 66 66 67 67 67 68 69 69 69 69 5m 55 55 56 57 57 58 58 58 59 60 60 61 61 10 m 50 50 51 52 52 53 53 53 54 55 55 56 56 Low noise setting up AS MOD. 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 63 90,0 90,0 83,4 84,4 84,4 85,4 85,4 85,4 89,4 91,2 91,2 92,2 92,2 125 82,0 82,0 86,3 87,3 87,3 88,3 88,3 88,3 87,0 88,9 88,9 89,9 89,9 SWL 2000 67,0 67,0 67,8 68,8 68,8 69,8 69,8 69,8 73,8 71,6 71,6 72,6 72,6 4000 64,0 64,0 59,2 60,2 60,2 61,2 61,2 61,2 65,3 64,0 64,0 65,0 65,0 8000 52,0 52,0 50,3 51,3 51,3 52,3 52,3 52,3 56,0 55,6 55,6 56,6 56,6 dB 91 91 90 91 91 92 92 92 93 94 94 95 95 dB(A)(E) 79 79 80 81 81 82 82 82 83 84 84 85 85 SPL dB(A) 1m 61 61 62 63 63 64 64 64 65 66 66 66 66 5m 52 52 53 54 54 55 55 55 56 57 57 58 58 10 m 47 47 48 49 49 50 50 50 51 52 52 53 53 Extra low noise setting up AX SWL (dB) SWL SPL dB(A) Octave bands (Hz) 63 125 250 500 1000 2000 4000 8000 dB dB(A)(E) 1m 5m 40.2 82,6 83,6 80,2 74,8 71,0 65,5 59,4 53,6 88 77 59 50 50.2 82,6 83,6 80,2 74,8 71,0 65,5 59,4 53,6 88 77 59 50 60.2 89,0 81,0 80,0 76,0 72,0 67,0 62,0 52,0 90 78 60 51 70.2 90,0 82,0 81,0 77,0 73,5 67,0 64,0 52,0 91 79 61 52 80.2 90,0 82,0 81,0 77,0 73,5 67,0 64,0 52,0 91 79 61 52 90.2 83,4 86,3 82,6 77,8 74,3 67,8 59,2 50,3 90 80 62 53 100.2 83,4 86,3 82,6 77,8 74,3 67,8 59,2 50,3 90 80 62 53 115.2 83,4 86,3 82,6 77,8 74,3 67,8 59,2 50,3 90 80 62 53 130.2 84,4 87,3 83,6 78,8 75,3 68,8 60,2 51,3 91 81 63 54 145.2 85,4 88,3 84,6 79,8 76,3 69,8 61,2 52,3 92 82 64 55 160.2 85,4 88,3 84,6 79,8 76,3 69,8 61,2 52,3 92 82 64 55 180.2 89,4 87,0 84,8 80,3 77,4 73,8 65,3 56,0 93 83 64 56 200.2 89,4 87,0 84,8 80,3 77,4 73,8 65,3 56,0 93 83 64 56 (E): Data declared according to EUROVENT LCP certification programme. The values are for units without options and accessories. MOD. 46 10 m 45 45 46 47 47 48 48 48 49 50 50 51 51 OPERATING RANGE Operating range The table below lists the operating ranges within which correct operation of the units is guaranteed, depending on the Version and Operating Mode available for each type of unit. Remember that in Heat Pump units, heat recovery only takes place during operation in the cooling mode. NOTE: the admissible limits for water flow rate on heat exchangers are indicated under the related pressure drop graph (see section "water pressure drop"). If the unit is equipped with pumping module the admissible limits are indicated under the related working head graph (see section "working head"). Operating range of Base version Thermal gradient of the water Limit value Minimum °C 3 Maximum °C 8 Verify that water flow rate is inside the admissible limits. IN COOLING MODE UNIT MEDIUM TEMPERATURE - 0 M 5 UNIT HIGH TEMPERATURE - 0 A 5 WATER OUTLET TEMPERATURE WATER OUTLET TEMPERATURE DT Water= 5°C DT Water= 5°C 0 5 0 5 05 05 EXTERNAL AIR TEMPERATURE 25 25 25 25 EXTERNAL AIR TEMPERATURE With accessory fans modulating control 5 ATC 5 IN HEATING MODE -10 -10 0 With accessory fans modulating control (brine is recommended) 5 ATC (Advanced Temperature Control) function may occur, if present 5 15 0 35 40 WATER OUTLET 35 40 TEMPERATURE 15 50 55 50 55 -10 0 15 35 42 52 55 -10 0 15 35 42 52 55 DT Water= 5°C 55 0 5 45 55 45 25 05 EXTERNAL AIR TEMPERATURE 30 25 30 -10 2 -10 2 With accessory fans modulating control 30 40 BRINE UNIT BR - BP MODE 20 -10 - IN COOLING 0 10 5 -10 -10 0 0 30 40 30 40 50 WATER OUTLET 10 20 30 TEMPERATURE 40 50 15 35 40 50 55 5 DT Water= 5°C -10 0 15 0 5 5 35 42 52 55 05 5 25 55 45 25 EXTERNAL AIR TEMPERATURE -5 -5 -12 -12 5 -10 0 15 accessory 35 40 fans 50 modulating control (brine is mandatory) With -10 -10 00 10 15 20 -10 0 2 0 5 30 -10 -10 50 30 35 40 40 50 Brine is mandatory 10 15 20 30 40 35 3040 50 4050 55 47 -10 0 15 35 42 52 55 Water pressure drop (kPa) 48 1,0 2,0 3,0 Upper limit value Lower limit value MODELS Graphic refer Operating range 15 25 35 45 55 65 75 85 95 105 115 125 135 145 Q Δp Q Δp 50.2 1 1,33 4,19 4,19 5,0 40.2 1 1,33 4,0 1 2 6,0 4,64 60.2 2 1,47 3 5,64 5 8,0 9,0 6 6,49 80.2 4 2,05 7,68 90.2 5 2,43 100.2 6 2,78 15 8,79 150 Water flow rate (l/s) 7,0 70.2 3 1,78 4 9,86 115.2 7 3,12 10,0 7 10,7 130.2 8 3,38 11,0 8 12,2 145.2 9 3,87 12,0 13,3 10 15,2 180.2 11 4,79 13,0 160.2 10 4,20 9 16,6 200.2 12 5,24 14,0 UM l\s kPa l\s kPa 15,0 11 Q= Water flow rate ∆P= Water pressure drop NOTE 16,0 17,0 12 The graph below illustrates the water pressure drop values in kPa depending on the flow rate in liters/second. The operating range is delimited by the minimum and maximum values given in the next table. The graphs are referred to units operating with water at the temperature of 10°C (density 1000 kg/m3). Plant side exchanger WATER PRESSURE DROP 5 0,50 15 25 35 45 55 65 75 85 95 105 115 125 135 145 Upper limit value Lower limit value MODELS Graphic refer Operating range Water pressure drop (kPa) Q Δp Q Δp 0,75 50.2 1 0,57 3,11 40.2 1 0,57 3,11 1,00 3,11 60.2 1 0,57 1,25 3,11 70.2 1 0,57 1,50 1,75 2,00 3,11 80.2 1 0,57 3,50 90.2 2 0,76 100.2 2 0,76 5 3,50 150 3,50 115.2 2 0,76 2,25 Water flow rate (l/s) 3,50 130.2 3 1,11 2,50 3,50 145.2 3 1,11 3,50 160.2 3 1,11 2,75 3,50 180.2 4 1,41 3,00 1 3,50 200.2 4 1,41 3,25 UM l\s kPa l\s kPa 3,50 NOTE Q= Water flow rate ∆P= Water pressure drop 4 3 2 The graph below illustrates the water pressure drop values in kPa depending on the flow rate in liters/second. The operating range is delimited by the minimum and maximum values given in the next table. The graphs are referred to units operating with water at the temperature of 10°C (density 1000 kg/m3). Desuperheaters WATER PRESSURE DROP 49 Water pressure drop (kPa) 50 1,0 2,0 Upper limit value Lower limit value MODELS Graphic refer Operating range 15 25 35 45 55 65 75 85 95 105 115 125 135 145 Q Δp Q Δp 3,0 50.2 1 1,89 5,97 5,93 5,0 40.2 1 1,88 4,0 7,0 2 8,0 3 7,13 60.2 2 2,25 8,00 70.2 3 2,53 8,73 80.2 4 2,76 10,1 90.2 5 3,21 Water flow rate (l/s) 6,0 1 100.2 6 3,47 15 11,0 150 9,0 4 12,6 115.2 7 3,97 10,0 5 13,6 130.2 8 4,30 11,0 6 15,6 145.2 9 4,93 17,0 17,0 180.2 11 6,13 13,0 160.2 10 5,38 12,0 7 17,0 200.2 12 6,69 14,0 8 UM l\s kPa l\s kPa 15,0 NOTE 16,0 Q= Water flow rate ∆P= Water pressure drop 9 17,0 12 11 10 The graph below illustrates the water pressure drop values in kPa depending on the flow rate in liters/second. The operating range is delimited by the minimum and maximum values given in the next table. The graphs are referred to units operating with water at the temperature of 10°C (density 1000 kg/m3). Total recovery exchanger WATER PRESSURE DROP Working head (kPa) 1,0 1,5 2,0 2,5 MODELS Graphic refer Lower limit value Upper limit value Operating range 0 25 50 75 100 125 150 175 200 225 250 275 300 325 350 375 400 Q Q 3,0 40.2 1 1,33 3,85 3,5 50.2 1 1,33 3,85 4,0 60.2 2 1,47 4,00 4,5 1 2 3 4 70.2 3 1,78 4,36 5,0 6,0 6,5 7,0 80.2 4 2,05 4,61 90.2 5 2,43 7,00 100.2 6 2,78 7,29 115.2 7 3,12 7,48 7,5 5 67 8 Water flow rate (l/s) 5,5 130.2 8 3,38 7,80 8,0 9,0 145.2 9 3,87 9,32 8,5 160.2 10 4,20 9,58 9,5 9 10 180.2 11 4,79 11,3 10,0 200.2 12 5,24 11,4 10,5 UM l\s l\s 11,0 NOTE 12,0 Q= Water flow rate 11,5 11 12 12,5 Working head is that at the pumping module outlet reduced by all pressure losses inside the unit. The graph below illustrates for the pumping module the working head values in kPa depending on the flow rate in liters/second. The operating range is delimited by the minimum and maximum values given in the next table. The graphs are referred to units operating with water at the temperature of 10°C (density 1000 kg/m3). Standard working head pumps 13,0 WORKING HEAD 51 0 25 50 75 100 125 150 175 200 225 250 275 300 325 350 375 400 425 450 475 500 1,0 1,5 2,0 MODELS Graphic refer Lower limit value Upper limit value Operating range Working head (kPa) 52 Q Q 2,5 40.2 1 1,33 4,62 3,0 50.2 1 1,33 4,62 3,5 70.2 3 1,78 5,30 5,0 6,0 6,5 7,0 80.2 4 2,05 5,64 90.2 5 2,43 7,68 100.2 6 2,78 7,98 Water flow rate (l/s) 5,5 1 2 3 4 4,5 60.2 2 1,47 4,82 4,0 115.2 7 3,12 9,31 9,0 145.2 9 3,87 11,0 8,5 130.2 8 3,38 9,70 8,0 5 6 7,5 160.2 10 4,20 11,3 9,5 7 8 180.2 11 4,79 12,3 200.2 12 5,24 12,4 UM l\s l\s Q= Water flow rate NOTE 9 10 11 12 10,0 10,5 11,0 11,5 12,0 12,5 13,0 Working head is that at the pumping module outlet reduced by all pressure losses inside the unit. The graph below illustrates for the pumping module the working head values in kPa depending on the flow rate in liters/second. The operating range is delimited by the minimum and maximum values given in the next table. The graphs are referred to units operating with water at the temperature of 10°C (density 1000 kg/m3). High working head pumps WORKING HEAD DIMENSIONAL AND PHYSICAL DATA Overall dimensions Mod. 40-50-60-70-80 *: Center distance of vibration damper holes Mod. 90-100-115 *: Center distance of vibration damper holes Mod. 130-145-160 *: Center distance of vibration damper holes Mod. 180-200 *: Center distance of vibration damper holes 53 DIMENSIONAL AND PHYSICAL DATA Description of the components 1 - Access panel to electric panel’s power section 2 - Access panel to compressor compartment 3 - Vibration damper fixing holes (4 pcs) 4 - Coil protection grilles (accessory) 5 - ø 65 mm lifting holes 6 - ø 22 mm input hole for accessory cables 7- ø 60 mm hole for electric power supply input 8 - Access panel to pump compartment 9 - Water inlet for AM SS 10 - Water inlet for PS 11 - Water outlet 12 - Water inlet for Desuperheater (VD) 13 - Water outlet for Desuperheater (VD) 14 - Water inlet for Total recovery (VR) 15 - Water outlet for Total recovery (VR) 16 - Water inlet for plant exchanger 17 - Water outlet for plant exchanger Note (1): Victaulic connections Kit do not allow external connections. 15- OUT RECOVERY EXCHANGER 369 14- IN RECOVERY EXCHANGER 17- OUT PLANT EXCHANGER 16 1104 5 369 16- IN PLANT EXCHANGER 04 189 11 Ø 1 1/4" 1 1/2" 2" 2 1/2" 26 19 VICTAULIC STANDARD UNIT Mod. 40 50 60 70 80 90 100 115 130 145 160 180 200 54 Ø IN Rif. 1 1/4" OUT Ø Rif. 1 1/4" 16 2 1/2" Ø IN Rif. 2" OUT Ø Rif. Ø 2" 2" 16 2 1/2" IN Rif. 17 2 1/2" MP AM MP SS PIPE KIT WITH TANK MKT AM CONNECTIONS 17 2 1/2" PIPE KIT WITHOUT TANK MKT SS OUT Ø Rif. Ø 2" 2" 10 2 1/2" IN Rif. 11 2 1/2" OUT Ø Rif. Ø 2" 2" 9 2 1/2" MP PS IN Rif. 11 2 1/2" 2 1/2" VD OUT Ø Rif. Ø 2" 2" 10 IN Rif. 11 2 1/2" DN DN32 DN40 DN50 DN65 VR OUT Ø Rif. Ø 2" 2" 12 2 1/2" Type Victaulic Victaulic Victaulic Victaulic IN Rif. 13 2 1/2" OUT Ø Rif. 2" 14 2 1/2" 15 2 1/2" DIMENSIONAL AND PHYSICAL DATA Minimum space required for operation To correctly install the unit, comply with the measurements for the free area that must be left around the unit, as shown in the figure. This will ensure good air circulation, allow the unit to operate correctly and facilitate future maintenance work. The distances must be doubled if the unit is to be installed in a pit. NOTE. Allow for an uncluttered area of not less than 2.5 meters above the unit. Mod. E 40÷115 1600 130÷200 2000 UM mm Position of condensate drain The condensate tray (if present) must have a suitable drain trap to prevent spilling of water during operation. Vibration-damper installation To prevent the operating unit from transmitting vibrations to the bearing structure, vibration dampening materials should be inserted under the bearing points. The unit can be supplied with the rubber or spring vibration dampening accessory. This must be mounted by the installer. Unit Unit without tank Unit with tank Mod. 40-80 90-160 180-200 40-80 90-200 A 95 106 95 95 106 B 35 37 35 35 37 C 122 136 122 122 136 D 124 150 124 124 150 E 150 170 150 150 170 F 10 12,5 10 10 12,5 G 3 3,5 3 3 3,5 UM mm mm mm mm mm 55 DIMENSIONAL AND PHYSICAL DATA Area of support Mod. 40-50-60-70-80 847 Mod. 90-100-115-130-145-160 0 7 Mod. 180-200 0 2480 3322 4076 To correctly install the unit, comply with the measurements for the free area that must be left around the unit, as shown in the drawing. Mod. 40-50-60-70-80-90-100-115-130-145-160 56 Mod. 180-200 DIMENSIONAL AND PHYSICAL DATA Transport weight UNIT WITHOUT WATER STORAGE TANK Unit WITHOUT Hydronic kit IR version Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 AB-AS Center of gravity position [mm] A B 401 890 401 888 403 878 414 883 419 887 467 1199 449 1146 455 1158 458 1152 457 1141 470 1150 465 1389 477 1399 Unit WITH Hydronic kit IR version Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 AB-AS Center of gravity position [mm] A B 364 1048 364 1046 366 1036 377 1032 383 1031 432 1375 419 1316 425 1328 427 1314 428 1297 440 1300 432 1615 444 1617 Weight [Kg] 565 567 592 630 656 893 973 1023 1110 1163 1211 1356 1400 Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 AB-AS Center of gravity position [mm] A B 409 993 409 991 411 981 420 980 424 981 475 1323 458 1266 464 1278 465 1257 464 1243 476 1247 476 1519 487 1524 Unit WITH Hydronic kit IR version IP version Acustic version Weight [Kg] Models 587 589 614 646 663 913 993 1112 1138 1191 1223 1389 1414 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 AB-AS Center of gravity position [mm] A B 414 872 414 870 416 860 424 865 430 871 478 1180 460 1130 466 1142 469 1138 468 1128 480 1137 474 1368 486 1378 Weight [Kg] 597 599 624 663 688 932 1012 1062 1153 1210 1260 1407 1451 AX Center of gravity position [mm] A B 430 888 430 886 432 876 434 875 430 871 494 1194 475 1144 492 1165 486 1153 485 1143 480 1137 488 1386 486 1378 Weight [Kg] 619 621 646 679 695 952 1032 1155 1182 1238 1273 1440 1466 IP version Weight [Kg] 680 682 707 745 770 1037 1117 1167 1266 1318 1367 1555 1599 UNIT WITH WATER STORAGE TANK Unit WITHOUT Hydronic kit R version Acustic version AX Center of gravity position [mm] A B 419 906 419 904 421 894 424 894 419 887 484 1213 465 1160 482 1180 476 1168 475 1156 470 1150 480 1407 477 1399 Weight [Kg] 639 641 666 704 729 997 1077 1127 1214 1267 1315 1497 1541 AX Center of gravity position [mm] A B 380 1057 380 1055 382 1045 386 1038 383 1031 446 1384 432 1325 448 1338 444 1324 444 1308 440 1300 445 1626 444 1617 AX Center of gravity position [mm] A B 424 1004 424 1002 426 992 429 988 424 981 490 1333 472 1276 487 1283 482 1270 480 1255 476 1247 489 1533 487 1524 Acustic version Weight [Kg] Models 702 704 729 761 778 1057 1137 1267 1294 1347 1381 1588 1615 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 IP version Acustic version Weight [Kg] Models 661 663 688 720 736 1018 1098 1216 1243 1296 1328 1530 1556 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 AB-AS Center of gravity position [mm] A B 376 1026 376 1024 378 1014 387 1011 393 1011 443 1352 429 1296 435 1308 438 1296 439 1281 450 1283 441 1589 452 1592 AB-AS Center of gravity position [mm] A B 420 973 420 971 422 961 429 960 434 962 485 1301 468 1247 474 1259 475 1241 474 1227 485 1232 484 1496 4994 1501 Weight [Kg] 712 714 739 778 803 1076 1156 1206 1309 1366 1416 1606 1650 Weight [Kg] 671 673 698 737 761 1036 1116 1166 1258 1314 1364 1548 1592 AX Center of gravity position [mm] A B 391 1035 391 1033 393 1023 397 1017 393 1011 456 1361 442 1305 458 1319 454 1306 454 1291 450 1283 454 1601 452 1592 AX Center of gravity position [mm] A B 434 984 434 982 436 972 438 967 434 962 499 1311 481 1257 496 1265 491 1253 489 1239 485 1232 496 1509 4994 1501 Weight [Kg] 734 736 761 794 811 1096 1176 1311 1338 1394 1430 1639 1667 Weight [Kg] 693 695 720 753 769 1056 1136 1259 1286 1343 1378 1581 1608 IP version Acustic version AB-AS AX AB-AS AX Center of gravity Center of gravity Center of gravity Center of gravity Weight Weight Weight Models Models position [mm] position [mm] position [mm] position [mm] [Kg] [Kg] [Kg] A B A B A B A B 40.2 377 1108 744 391 1115 767 40.2 388 1086 776 401 1093 50.2 377 1106 746 391 1113 769 50.2 388 1084 778 401 1091 60.2 379 1096 771 393 1103 794 60.2 390 1074 803 403 1081 70.2 388 1090 810 397 1095 825 70.2 398 1068 843 406 1073 80.2 393 1087 835 393 1087 843 80.2 403 1067 867 403 1067 90.2 446 1452 1127 460 1458 1147 90.2 456 1428 1165 468 1435 100.2 433 1392 1207 446 1399 1227 100.2 442 1372 1245 454 1379 115.2 439 1404 1257 459 1404 1357 115.2 448 1384 1295 468 1385 130.2 440 1381 1355 455 1390 1384 130.2 449 1363 1399 464 1371 145.2 440 1364 1408 455 4372 1437 145.2 449 1346 1456 464 1354 160.2 451 1364 1457 451 1364 1472 160.2 460 1346 1506 460 1346 180.2 448 1700 1675 460 1708 1708 180.2 456 1673 1726 468 1682 200.2 459 1699 1719 459 1699 1736 200.2 466 1674 1770 466 1674 NOTA: For Desuperheater versions VD the total weight increases of 4%. For Heat recovery versions VR the total weight increases of 10%. Acustic version Weight [Kg] 799 801 826 858 876 1186 1266 1401 1427 1484 1521 1759 1788 57 DIMENSIONAL AND PHYSICAL DATA Operation weight UNIT WITHOUT WATER STORAGE TANK IR version Unit WITHOUT Hydronic kit AB-AS Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 Center of gravity position [mm] A 399 399 401 411 417 465 447 461 455 453 466 463 475 Unit WITH Hydronic kit B 890 888 878 884 888 1201 1148 1166 1154 1143 1152 1389 1399 Load on the supports [Kg] W1 241 241 252 262 269 346 401 432 450 477 484 412 419 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 W2 90 90 94 99 103 176 185 206 210 219 225 114 115 W3 65 65 68 75 80 128 125 147 147 151 164 40 49 W4 W5 W6 174 174 182 198 209 250 270 308 314 330 352 338 269 194 352 272 206 Weight [Kg] 569 571 596 634 661 900 981 1093 1121 1177 1225 1367 1413 A 417 417 419 422 417 481 462 479 473 471 466 477 475 B 906 904 894 894 888 1215 1162 1181 1170 1159 1152 1407 1399 Load on the supports [Kg] W1 238 239 249 261 272 342 396 426 444 470 489 407 423 AB-AS Acustic version Models AX Center of gravity position [mm] Center of gravity position [mm] A 358 358 360 370 376 425 413 425 421 421 433 426 437 B 1067 1065 1055 1050 1048 1397 1338 1349 1335 1318 1320 1642 1643 W2 160 161 168 172 176 274 284 312 316 324 330 216 217 W3 95 96 100 108 113 170 167 193 192 197 211 92 100 W3 73 73 76 81 81 138 134 160 160 164 166 50 49 W4 W5 W6 186 187 195 207 211 263 283 326 332 349 356 344 265 202 356 275 208 590 592 617 651 668 921 1001 1121 1150 1205 1237 1381 1427 AX Load on the supports [Kg] W1 275 276 288 299 307 384 438 474 492 519 527 438 445 W2 93 93 97 102 104 178 188 209 214 222 227 113 116 Weight [Kg] W4 W5 W6 164 165 172 187 197 238 258 293 299 316 337 314 331 206 328 334 218 Weight [Kg] 701 703 728 766 793 1066 1147 1272 1299 1356 1405 1597 1642 Center of gravity position [mm] A 373 373 375 380 376 440 426 442 437 437 433 439 437 B 1075 1073 1063 1056 1048 1405 1347 1358 1345 1328 1320 1653 1643 Load on the supports [Kg] W1 274 275 287 299 310 381 435 469 487 514 532 438 449 W2 162 163 170 174 178 275 285 314 318 326 333 216 219 W3 104 104 109 114 114 181 177 208 207 212 213 103 101 W4 W5 W6 176 176 184 196 199 250 270 310 316 333 340 324 331 217 331 337 220 Weight [Kg] 723 725 750 783 801 1087 1167 1301 1328 1385 1419 1629 1658 UNIT WITH WATER STORAGE TANK IR version Unit WITHOUT Hydronic kit AB-AS Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 Center of gravity position [mm] A 434 434 436 441 444 510 495 502 497 495 502 513 520 B 1194 1192 1182 1173 1167 1624 1565 1547 1532 1512 1508 1821 1818 AX Load on the supports [Kg] W1 256 257 268 280 287 364 415 448 465 491 500 432 439 W2 199 199 208 212 215 376 389 408 413 422 427 268 268 W3 167 168 175 183 189 324 317 341 339 343 358 223 231 W4 W5 W6 216 217 226 242 252 314 338 374 381 399 419 387 353 308 402 356 320 Weight [Kg] 850 852 877 917 943 1378 1459 1571 1598 1655 1704 1971 2016 Center of gravity position [mm] A 445 445 447 448 444 520 505 514 509 506 502 522 520 B 1197 1195 1185 1175 1167 1626 1568 1551 1537 1516 1508 1827 1818 Load on the supports [Kg] W1 256 257 268 280 290 362 412 445 461 487 505 432 443 W2 200 200 209 213 217 375 389 408 414 423 431 268 271 W3 177 177 185 190 191 336 329 357 356 359 362 234 233 W4 W5 W6 227 228 238 249 255 325 349 389 397 414 423 398 353 319 406 360 323 Weight [Kg] 873 875 900 932 952 1398 1479 1599 1628 1683 1721 2004 2036 Unit WITH Hydronic kit AB-AS Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 58 Center of gravity position [mm] A 402 402 404 410 414 482 470 475 471 470 478 485 492 B 1272 1270 1260 1249 1242 1704 1646 1631 1617 1595 1590 1953 1947 AX Load on the supports [Kg] W1 286 287 300 312 320 396 447 483 500 526 536 452 459 W2 263 264 276 280 283 465 478 505 510 519 523 360 361 W3 193 194 202 211 216 360 353 381 379 383 399 272 281 W4 W5 W6 210 211 220 235 245 307 330 365 372 389 408 364 408 320 379 411 331 Weight [Kg] 971 973 998 1038 1064 1528 1608 1734 1761 1817 1866 2176 2222 Center of gravity position [mm] A 413 413 415 417 414 491 479 487 483 481 478 494 492 B 1273 1271 1261 1250 1242 1705 1648 1634 1619 1598 1590 1955 1947 Load on the supports [Kg] W1 287 288 301 313 323 394 445 481 498 524 541 452 464 W2 264 265 277 281 286 464 477 504 510 518 528 360 365 W3 203 204 213 218 218 373 366 398 396 400 403 283 284 W4 W5 W6 221 221 231 243 247 317 341 379 387 404 412 376 408 331 383 415 334 NOTA: For Desuperheater versions VD the total weight increases of 4%. For Heat recovery versions VR the total weight increases of 10%. Weight [Kg] 995 997 1022 1055 1075 1548 1629 1762 1791 1846 1885 2210 2244 DIMENSIONAL AND PHYSICAL DATA UNIT WITHOUT WATER STORAGE TANK IP version Unit WITHOUT Hydronic kit AB-AS Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 Center of gravity position [mm] A 412 412 414 422 427 476 457 471 466 465 476 471 483 B 873 871 861 866 871 1182 1133 1151 1140 1130 1139 1368 1378 AX Load on the supports [Kg] W1 250 251 262 273 280 358 413 445 463 490 499 429 435 W2 89 89 93 99 103 176 186 207 211 219 227 110 111 W3 68 68 71 78 83 133 131 154 153 159 172 40 50 W4 W5 W6 192 193 201 217 227 271 291 331 337 355 377 359 275 205 373 278 217 Weight [Kg] 600 602 627 667 693 938 1021 1137 1164 1223 1275 1418 1464 Center of gravity position [mm] A 428 428 430 432 427 491 472 489 483 481 476 485 483 B 889 887 877 876 871 1196 1146 1166 1155 1145 1139 1386 1378 Load on the supports [Kg] W1 248 249 260 272 283 354 408 439 457 484 504 428 439 W2 93 93 97 101 104 179 188 210 214 222 229 111 112 W3 76 77 80 84 84 143 140 167 166 172 174 52 51 W4 W5 W6 204 205 214 226 229 284 304 349 355 373 381 369 275 216 377 281 219 Weight [Kg] 624 626 651 683 700 960 1040 1165 1192 1251 1288 1451 1479 Unit WITH Hydronic kit AB-AS Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 Center of gravity position [mm] A 370 370 372 381 387 436 423 436 431 432 443 435 445 B 1045 1043 1033 1029 1028 1374 1319 1330 1317 1301 1303 1617 1618 AX Load on the supports [Kg] W1 286 287 300 312 318 398 452 488 506 533 543 453 460 W2 158 159 166 171 174 273 283 311 316 324 330 211 212 W3 100 101 105 112 118 177 173 201 200 206 220 93 101 W4 W5 W6 180 181 189 205 215 257 277 315 321 339 361 334 337 218 349 341 229 Weight [Kg] 733 735 760 800 825 1105 1185 1315 1343 1402 1454 1646 1692 Center of gravity position [mm] A 385 385 387 390 387 450 436 452 447 447 443 447 445 B 1053 1051 1041 1034 1028 1382 1327 1340 1327 1311 1303 1627 1618 Load on the supports [Kg] W1 285 286 298 311 321 394 448 483 501 528 548 454 465 W2 160 161 168 172 176 275 284 313 318 326 333 212 214 W3 109 109 114 118 119 187 184 215 215 220 222 103 102 W4 W5 W6 193 194 202 214 217 269 290 332 338 356 365 345 337 229 352 344 231 Weight [Kg] 755 757 782 815 833 1125 1206 1343 1372 1430 1469 1680 1709 UNIT WITH WATER STORAGE TANK IP version Unit WITHOUT Hydronic kit AB-AS Acustic version Models 40.2 50.2 60.2 70.2 80.2 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 Center of gravity position [mm] A 441 441 443 448 451 516 502 508 503 501 509 518 525 B 1171 1169 1159 1150 1147 1599 1543 1526 1512 1493 1488 1796 1793 AX Load on the supports [Kg] W1 267 268 280 292 299 378 428 462 479 505 516 448 454 W2 197 197 206 211 214 375 388 407 413 422 427 263 264 W3 172 172 180 188 193 331 324 349 347 352 367 224 233 W4 W5 W6 233 234 244 260 270 334 358 396 403 422 443 408 359 319 423 362 331 Weight [Kg] 883 885 910 951 976 1418 1498 1614 1642 1701 1753 2021 2067 Center of gravity position [mm] A 452 452 454 454 451 526 511 520 515 513 509 527 525 B 1175 1173 1163 1153 1147 1602 1547 1531 1517 1497 1488 1802 1793 Load on the supports [Kg] W1 266 267 279 292 302 376 426 459 476 502 521 448 459 W2 198 198 207 212 216 374 388 407 413 422 431 264 267 W3 181 182 190 194 195 343 336 365 363 368 371 236 235 W4 W5 W6 244 245 256 268 273 344 369 411 419 437 447 419 359 330 427 366 334 Weight [Kg] 905 907 932 966 986 1437 1519 1642 1671 1729 1771 2056 2088 Unit WITH Hydronic kit AB-AS Acustic version Models Center of gravity position [mm] Load on the supports [Kg] AX Weight [Kg] Center of gravity position [mm] Load on the supports [Kg] A B W1 W2 W3 W4 W5 W6 A B W1 W2 W3 W4 W5 W6 40.2 410 1249 299 261 198 226 1003 420 1251 299 262 208 237 50.2 410 1247 300 262 198 227 1005 420 1249 300 263 209 238 60.2 412 1237 313 273 207 237 1030 422 1239 313 274 218 248 70.2 417 1226 325 278 216 253 1072 424 1228 326 279 223 260 80.2 421 1222 332 281 221 262 1096 421 1222 335 284 223 265 90.2 488 1679 410 463 367 326 1566 497 1681 409 462 380 336 100.2 476 1625 461 476 361 349 1647 485 1627 459 476 373 360 115.2 482 1610 498 503 389 386 1776 493 1613 496 503 406 400 130.2 478 1596 515 509 388 393 1805 489 1599 513 508 404 408 145.2 477 1576 542 517 393 411 1863 488 1579 539 517 409 426 160.2 484 1570 553 523 408 432 1916 484 1570 559 528 412 436 180.2 490 1927 468 356 273 385 414 331 2227 499 1930 468 356 284 396 414 342 200.2 497 1922 475 356 282 400 417 343 2273 497 1922 480 360 285 404 421 346 NOTA: For Desuperheater versions VD the total weight increases of 4%. For Heat recovery versions VR the total weight increases of 10%. Weight [Kg] 1026 1028 1053 1088 1107 1587 1668 1805 1833 1891 1935 2260 2296 59 RECEPTION AND POSITIONING Inspections on arrival As soon as the appliance is consigned, it is essential to make sure that all the ordered items have been received and that the shipment is complete. Carefully check that the equipment has not been damaged. If visible damage is discovered, immediately inform the haulage contractor and write “Collected with reserves owing to evident damage” on the consignment note. Delivery ex works means that, as established by law, reimbursement of any damages is at the insurance company’s charge. Safety prescriptions Comply with the current safety regulations concerning the equipment to use when handling the unit or the required ways of operating. Use single protection devices as goggles, gloves, helmets… when handling the unit to avoid risk of injuries. Check the weight of the appliance before proceeding with the moving and handling operations. Handling Plan the handling activity verifying: • Weight of the unit indicated on the data plate of the appliance and in the section "DIMENSIONAL and PHYSICAL DATA" of this manual • Lifting capacity of the equipment that has to be used appropriate to the weight of the unit • Type and dimensions of the unit • Center of Gravity position and the availability of straps / ropes or other devices able of positioning the lifting hook exactly at the unit center of gravity: For the CG position in transport and operation, ref. section "DIMENSIONAL and PHYSICAL DATA" . Also refer to the labels (Part.3) identification of transport the center of gravity, applied on all 4 sides of the base. • State and physical characteristics of the place where the unit has been handled (yard dirt, asphalted square, etc.). • State and physical characteristics of the destination place (roof, yard, terrace, etc.). • Length and type of the handling route with particular attention to critical points of transition such as ramps, stairs, uneven or slippery steps, doors, etc.. Note that the handling examples shown in the drawings are indications, the choice of handling mean and method should been done considering all the factors above mentioned. Comply with the following instructions when lifting and positioning the appliance: • Handling with a lift truck or similar 1) The unit has four wooden bases so that it can be transported in a longitudinal direction (not sideways). Place something suitable in between to separate the truck from the unit in order to prevent the surfaces of the bank or electric panel from being damaged if the unit has to be moved sideways. Do not allow the unit or any of its parts to drop on to the ground. Remember that the heaviest part is the one where the compressor is installed (electric panel side Fig.1-2). Refer to the data plates (Fig.5) that identify the center of gravity position, applied to the 4 sides of the base. 2) Position metal pipes (Part 1 Fig.3) of adequate thickness in the holes in the base of the unit for lifting. • The end portions of the pipes must stand out by an adequate extent to permit inserting the safety devices and housing the belts for lifting. • Use spacer bars in the top of the unit to prevent crushing and damaging the batteries and the parts intended to cover the assembly. • Consult the WEIGHTS AND CENTERS OF GRAVITY DURING TRASPORT AND OPERATION section for the center of gravity position. Use corner protectors (Part.2 Fig.3) to avoid damaging the unit. Fig. 1 Fig. 2 Fig. 5 2 Fig. 3 2 Part. 1 60 RECEPTION AND POSITIONING • Handling and lifting with a crane or similar Using the brackets (Part 1 Fig.4) located by the lifting holes (refer to the "DIMENSIONAL and PHYSICAL DATA" section). • Consult the WEIGHTS AND CENTERS OF GRAVITY DURING TRASPORT AND OPERATION section for the center of gravity position. NOTE: To correctly lift the machine, the belts used must be longer than 3.5 meters. Refer to the data plates (Fig.5) that identify the center of gravity position, applied to the 4 sides of the base. Use corner protectors (Part.2 Fig.4) to avoid damaging the unit. Fig. 4 2 Fig. 5 Part. 1 2 Make sure that the appliance is handled with care and without jolting as rough treatment could damage the functional parts of the unit. WARNING: To safeguard persons and property, read the information on the packing that covers the unit before handling. Also make sure to: • Handle the unit with care • Do not stack other objects on top of the unit Storage The units must be stored in a dry place, sheltered from the sun, rain, sand and wind. Comply with the storage conditions given below: • Do not stack the units • Maximum temperature = 60°C • Minimum temperature = -10°C • Humidity = 90% • Avoid placing the units packaged with thermoretractable protection under the sun since the pressure inside the refrigerant circuits can increase up to values such as to open the safety valve. Packing removing Recycle and dispose of packing material in conformity with local regulations, be extremely careful not to damage the unit. 61 RECEPTION AND POSITIONING Positioning Before positioning please consider the overall dimensions and the technical requirements of the system and the unit, electric and hydraulic connections and any air pipes/ducts or free passages. Neglecting these aspects may decrease performance and operational life of the unit and therefore increase the operating costs and maintenance. Units are designed to be installed OUTSIDE and in fixed positions. The unit is designed to be installed outside and in a fixed location and accessible only by qualified and authorized personnel. Safety valve (if present): the installer is required to evaluate (according to EN378-2) the need and type of pipe to piped outlet in accordance with local regulations. To prevent the transmission of vibrations evaluate the need for vibration dampers mounting Before placing the unit be sure that: • the location is in a safe accessible place • the framework or the floor is adequate to support the weight of the unit WORKING (tank filled with water, etc…), please refer to weight paragraph • support points are leveled and aligned • the place can not be subject to flooding • the maximum level of the snow does not obstruct the airflow to the unit To ensure the best air circulation to the unit and thus ensure a smooth operation it is recommended to: • • • • avoid obstructions to air flow near or above the unit protect the unit from high winds that can favor or not the airflow protect the unit from heat sources or pollutants (chimneys, extractors…) protect the unit from air stratification or recirculation (avoid ducting of the fans, containment structure, high walls or corners next to the unit) These advises if not respected can lead to a lower efficiency of the unit or to high pressure stops (in summer) or low pressure stops (in winter). 62 HYDRAULIC CONNECTIONS General rules A mesh filter (hole Ø<1mm for plates heat exchanger Ø<1.5mm for shell and tubes heat exchanger) must be installed on the unit’s water inlet otherwise warranty is immediately forfeited. The filter The filter performs the function of blocking any foreign matter in the system’s plumbing circuit (shavings, machining debris, etc.) limiting or avoiding possible problems of fouling (that decreases the heat exchange coefficient), erosion, and clogging The clogging and fouling of the exchanger can lead to a reduction of the water flow rate and. In the case that the exchanger works as evaporator- of the evaporation temperature: these 2 factors can cause the icing of the exchanger The icing event leads to the bursting of the exchanger, the inlet of water into the refrigerant circuit and so the necessity of a replacement of the main components (compressors, filters, expansion valves,. Etc.) and an accurate washing of components as refrigerant pipes, coils, etc., practically the rebuilding nearly complete of the refrigerant circuit. The filter must be maintained clean: this is so necessary verify the cleanness after the unit installation and checking periodically the state. Protection devices Standard supply includes a differential pressure switch situated between the water inlet and outlet of the heat exchanger to avoid freezing if the water flow stops for any reason. Activation is calibrated for a 80 mbar ±5 Δp, while resetting occurs with a Δp of 105 mbar ±5. The differential pressure switch opens the contact and shuts down the compressors when the water flow ratey decreases and Δp ≤ 80 mbar ±5. The differential pressure switch closes and therefore the unit can restart when the water flow rate increases and Δp ≥ 105 mbar ±5. • Standard supply includes an antifreeze heater placed between the external thermal insulation and the shell of the exchanger and controlled by the main electronic controller of the unit in order to protect the evaporator full of water (but not the pipes) from the winter icing when the unit is in stand-by mode. The exchanger is protected down to an outdoor air temperature of -20°C. NOTE the antifreeze protection only worlk if the unit is electrically connected the standby period. It is recommended to install a water paddle flow switch at the water inlet of the unit (it can be supplied as accessory or option): the water paddle flow switch has to be electrically wired in series with the differential pressure switch. It is mandatory to calibrate the trip out of the water paddle flow switch at a water flow rate value higher than the minimum water flow rate admissible for the exchanger (re. section Pressure Drop). Tips for a successful installation For a correct design and installation of the hydraulic plant comply the local laws governing safety matters and sound… The following information is suggestion for a correct installation of the unit: • Before connecting the unit to the system wash adequately the pipes using clean water, filling and emptying and cleaning the filters. Only after that proceed connecting the unit to the system; this operation is crucial to ensure proper start-up without the need to have repeated stops to clean the filter, with the possible risk of damage to heat exchangers and other components. • Check by qualified personnel the quality of the water or of the mixture used; avoid the presence of inorganic salts, biological load (seaweeds, etc.) suspended solids, dissolved oxygen and the pH. Water with inadequate characteristics can cause a pressure drop increase due to a rapid fouling of the filter, energy efficiency decrease and corrosive symptom increase that can damage the unit. • The pipes must have the least possible number of bends to minimize load losses and must be adequately supported in order to prevent the connections of the unit from being excessively stressed. • Install on-off valves near components that need to be serviced to isolate them when maintenance work needs to be done and to allow them to be replaced without having to discharge the system. • Before isolating the pipes and charging the system, carry out preliminary inspections to make sure that there are no leaks. • Isolate all the chilled water pipes to prevent condensation from forming along the pipes themselves. Make sure that the material used is the steam barrier type, failing this, cover the insulation with an appropriate protection. Also make sure that the air venting valves can be accessed through the insulation. • Do not forget to install or at least allow for the installation of pressure and temperature reading instruments on the inlet and outlet parts of the hydraulic circuit. These instruments will allow you to monitor the operation of the system. • The circuit can be kept under pressure by means of an expansion tank and a pressure reducer. A plant filling unit can also be used in order to automatically charge the system and keep it at the desired pressure if it drops below a certain pressure value. Install manual or automatic values in the highest point of the system to eliminate air from the circuit. Fit manual or automatic valves at the highest point in the circuit in order to vent air from the circuit. • the water connections are Victaulic-type joints for hooking up to the unit. The joints allow the pipes to expand due to changes in temperature and in addition the elastomer gasket and the specified play help insulate and absorb noise and vibration. • If vibrations dampers are installed under the unit, it is recommended to use flexible couplings before and after the water circulation pump and near the unit. • Install on the outlet of the unit a suitable valve able to regulate the water flow. • Avoid that the weight of the connection pipes pushes on the hydraulic connections of the unit using approved supports. Check that plant components are suitable to bear the maximum static pressure (it depends on the height of the building). 63 HYDRAULIC CONNECTIONS Water component for corrosion limit pH SO4 -- 7.5 ÷ 9.0 - < 100 ppm HCO3 -/ SO4 -- >1.0 Total hardness 8.0 ÷ 15.2 °F Cl- < 50 ppm PO4 3- < 2.0 ppm NH3 < 0.5 ppm Free Chlorine < 0.5 ppm Fe3+ < 0.5 ppm Mn++ < 0.05 ppm CO2 < 50 ppm H2S < 50 ppb Temperature < 65 °C Oxygen content < 0.1 ppm Precautions for the Winter The water could freeze and damage the exchanger of the unit and other parts of the system during the winter period, if the system was to remain at a standstill. This problem can be obviated in 3 different ways: 1. Drain the system completely, taking care to drain the plate exchanger (in order to drain the unit’s piping system completely, open the water drain ball valves and the air vent valves, open any valves closed). 2. Operate with glycol water taking account, depending on the % of glycol, of the factor of correction of the refrigerating capacity, power input, water flow rate and losses of head (see table on following page) 3. If it is certain that the unit will always be powered throughout the winter, the unit is able to protect itself from freezing, down to a temperature of -20°C: this is possible thanks to an antifreeze electric heating element installed on the plate exchanger and intelligent control of the water pump that must be governed by the microprocessor board (see the “Electric Connections” section). If the unit is fitted with a Storage tank, solution no. 3 requires installing the tank antifreeze heating element accessor. 64 HYDRAULIC CONNECTIONS Basic diagram Standard Unit VB [PLANT SIDE WATER CIRCUIT] The following figures represent connections to the plant side exchanger. IMPORTANT: There must be a constant flow of water to the exchanger. With accessory primary-secondary pumping module MP PS STD is mandatory to install a water filter in the secondary circuit immediately after of the water tank. VB + hydronic kit accessory MP AM and MP SS VB + hydronic kit accessory MP PS and only tank SAA Basic diagram for units with Recovery [RECOVERY WATER CIRCUIT] The basic diagram given is valid for VD-VR version The figure below shows the basic diagram of the portion of the system with the heat exchanger used for recovering partially heating power that would otherwise be disposed of in the air. IMPORTANT: The water flow to the heat exchanger must be constant, it is required to install a water filter upstream of the exchanger. Recovered hot water tank (1): Component not required if the unit is equipped with the “Water storage tank” accessory. Installation of this accessory is recommended if the unit is without it. I = User system Pressure gauge Pump Air vent valve Thermometer Filter Safety valve On-off and/or water flow rate regulating valve Tank Coupling Monitoring electronics (governor) Expansion tank Water filling unit B A AB Three-way driven valve Recovery water flow inlet probe 65 HYDRAULIC CONNECTIONS Air vent and water drain On the plumbing circuit feeding the unit, especially when equipped with the standard pipe kit, the installer must fit an appropriate number of valves (manual or automatic) at the top of the circuit in order to vent any air in the plumbing system. In the same way, he must install a water drain valve in order, when necessary, to drain the unit's plate exchanger completely (especially during the winter in order to prevent freezing that would seriously jeopardize the operation of the unit). For units with the complete pipe kit there is an air vent valve on the top pipe (water inlet) and a water drain valve on the bottom pipe (water outlet). See “Accessories and options” section. Piping connection with Victaulic couplings and Water flow switch It is composed of two Victaulic type quick couplers (Fig. 1-A) comprehensive of union (Fig. 1-B) and seal not installed (supplied with the unit). The unions are supplied to be welded on the end. Here we give the instructions to follow for installing the quick couplers. Do not weld the pipe with Victaulic connection joint attacked since the gasket may be damaged irreparably. Note: Supplied as optional (see “ACCESSORIES AND OPTIONAL EQUIPMENT “). WATER FLOW SWITCH VICTAULIC A to be welded/thread B Valve regulating diagram valve To prevent problems from occurring when the unit is started with very cold water, you are strongly advised to install a mixer valve as shown in the diagram. The valve must be regulated to suit the temperature at which the water flows into the desuperheater (see diagram): the graph on the right shows the type of adjustment to use. Water connections must be performed carefully as for the evaporator (filter, circuit washing, etc.) Perform all necessary interventions to avoid RISK OF FREEZING (tubes insulation, emptying of circuit, addition of glycol, antifreeze resistances). Water temperature can reach high temperatures (up to 100°C for VD unit, up to 65°C for VR unit), therefore: • avoid RISK OF BURNS by adopting the necessary precautions (insulations of tubes, temperature detecting station on water if the sanitary use is foreseen, etc.). • install safety valves and specifically dimensioned expansion tanks in the hydraulic circuit. WATER FLOW PORTATA RATE ACQUA QAB= 100% QA 0 66 30°c QB 35°c Recovery INLET Temperatura temperature INGRESSO Recupero HYDRAULIC CONNECTIONS ISO-G 1” 11/4” 11/2” 2” 21/2” 3” 4” 5” 6” 8” DN(mm) 25 32 40 50 65 80 100 125 150 200 EXTERNAL DIAMETER OD(mm) 33.7 42.4 48.3 60.3 76.1 88.9 114.3 139.7 168.3 219.1 A 15.875 15.875 15.875 15.875 15.875 15.875 15.875 15.875 15.875 19.050 B 7.137 7.137 7.137 8.738 8.738 8.738 8.738 8.738 8.738 11.913 O 30.226 38.989 45.085 57.150 72.260 84.938 110.084 135.500 163.957 214.401 1) Pipe groove inspections Check the depth and diameter of the grooves and their distance from the pipe ends. Make sure that the work has been carried out with care and that the end surface of the pipes is smooth and not ovalized. Make sure that there are no notches, burrs or other imperfections that could impair the tightness. Groove dimensions in mm A=16-B=8-C=57.2-D=1.6 D 1.600 1.600 1.600 1.600 1.981 1.981 2.108 2.134 2.159 2.337 T 1.651 1.651 1.651 1.651 2.108 2.108 2.108 2.769 2.769 2.769 T 2) Checking the seal and relative lubrication Make sure that the type of seal used is compatible with the nature and temperature of the fluid. Signal green EPDM seals are used. Apply a film of grease to the seal: on the back, on the side flanks and on the inner lips that contact the pipe. Work in conditions of the utmost cleanliness as particles of dirt could damage the seal. Always and only use synthetic grease. Greasing makes it easier to fit the seal on the pipe and improves the tightness. It also allows the seal to slide within the connection, avoiding tensions and projections near the bolts. 3) How to fit the seal Fully insert the seal into the end of a pipe. Make sure that the seal lips adhere to the pipe itself. 4) Alignment Align the pipes and move their ends near to each other. Now push the seal, centering it on the two pipe ends. The seal must remain inside the grooves. 5) Joint assembly Remove one bolt and loosen (without removing) the other one. Seat part of the body of the joint at the bottom, between the pipe ends, inserting and edges of the grooves. Now seat the other part of the body at the top, on the two ends, and close the joint. Make sure that the parts of the body of the joint touch each other. 6) Nut torquing Fit the previously removed bolt back in place and tighten both nuts by hand. Now torque them with the relative wrench, tightening them alternately a few turns. WARNING: If one nut is fully tightened at a time, the seal could slip between the jaws of the opposite side of the joint. 67 MAXIMUM VOLUME OF WATER Maximum volume of water in the system with wet module Before filling the water system, it is advisable to consider the type of installation in question, i.e. check the difference in level between the wet module and user. The following table gives the maximum water content of the water supply system in liters, depending on the capacity of the standard expansion vessel supplied and the pressure at which it should be charged. The expansion vessel setting must be regulated to suit the maximum positive difference in level of the user. Maximum setting value 600 kPa. With a positive H of more than 12.25 meters, calculate the expansion vessel precharge value in kPa using the formula below: Expansion vessel precharge= [H/10.2+0.3] x100 = [kPa] NOTE. In case A, make sure that the user’s lowest point is able to withstand the global pressure. Tab.1 Model Expansion vessel volume (liters) Thermal expansion of water (10-40°C) Thermal expansion of water (10-60°C) Expansion vessel H (metri) pressure (kPa) Case A H <0 150 (standard) 0 < H < 12.25 150 (standard) 15 177 Case B 20 226 25 275 30 324 40-50-60-70-80 12 90-100-110-115-130-145-160-180-200 24 0.0074 0.0167 IR IP IR IP 1043 1043 980 866 753 640 461 461 435 384 334 283 2085 2085 1960 1732 1505 1279 921 921 870 768 667 566 NOTE: If the unit operates with brine, calculate the real volume of the system by taking into account the corrective factors for the volume of the system given in the table below. Corrective factors per total maximum volume of the system with brine % of brine Cooling Mode Heating Mode 0% 1,000 1,000 10% 0,738 0,855 20% 0,693 0,811 30% 0,652 0,769 U U U= User 68 40% 0,615 0,731 CASE B CASE A ELECTRICAL CONNECTIONS General rules The appliance must be wired in compliance with the laws in force in the country in which it is installed. The units are supplied fully wired in the factory and pre-engineered for connection to the electricity main. The electric panel is made in compliance with the technical standards in force in the European Union. Structure of the electric panel All the electrical components are contained in a closed casing protected against the atmospheric agents and inspectionable by opening the front door after removing the front panel. The door for accessing the power section is locked by the mechanism. Access for the supply cables and earth cable (PE) is permitted through the opening on the botton of the electric panel. Composition of the system The system comprises an electromechanical part consisting of the power circuit, with disconnecting device, contactors, fuses or thermal cutouts, transformer, and another part comprising the Microprocessor control system. NOTES: REFER TO THE WIRING DIAGRAM SUPPLIED WITH THE UNIT FOR THE LAYOUT OF THE ELECTRIC PANEL. Electrical connections All electrical connections must be carried out by qualified personnel in the absence of electric power. The table below gives the electrical specifications of the different constructional configurations of the units. Unit UNIT 40.2 50.2 FLA FLI MIC MIC SS 40,2 21,6 134 89,3 400 - 3+N - 50 45,7 53,3 58,7 24,4 28,4 31,0 143 149 173 96,3 101 117 Power supply 60.2 70.2 80.2 90.2 69,6 36,2 213 143 Unit layout 100.2 115.2 130.2 145.2 160.2 180.2 200.2 75,5 44,0 264 174 90,0 55,0 259 175 97,9 60,5 267 183 400 - 3 - 50 106 123 66,0 75,7 267 348 183 200 136 83,3 361 246 159 95,4 355 248 170 103 391 272 UM V-ph-Hz A kW A A COILS BATTERIA TANK SERBATOIO POMPA PUMP 11 POMPA PUMP 22 HEAT EXCHANGER SCAMBIATORE CP1B CP1A Compressors UNIT 40.2 50.2 60.2 70.2 80.2 Power supply FLA LRA FLI Winding resistance NOTE: FLA = LRA = FLI = MIC = MIC SS = CP1A CP1B CP1A CP1B CP1A CP1B CP1A CP1B 90.2 100.2 115.2 130.2 145.2 160.2 180.2 200.2 400 - 3 - 50 21,0 21,0 111 111 10,2 10,2 1,40 1,40 22,0 22,0 118 118 11,6 11,6 1,20 1,20 25,0 25,0 118 118 13,3 13,3 1,20 1,20 31,0 31,0 140 140 14,6 14,6 1,10 1,10 34,0 34,0 174 174 17,2 17,2 0,80 0,80 40,0 34,0 225 174 COIL 22,6 17,2 0,60 0,80 44,0 44,0 210 210 25,4 25,4 0,60 0,60 UM V-ph-Hz 53,0 44,0 210 210 30,9 25,4 0,50 0,60 53,0 53,0 210 210 30,9 30,9 0,50 0,50 66,0 53,0 287 210 38,5 30,9 0,30 0,50 66,0 66,0 287 287 38,5 38,5 0,30 0,30 76,0 76,0 267 267 43,5 43,5 0,30 0,30 81,0 81,0 298 298 47,1 47,4 0,30 0,30 A A kW Ω TANK Full load current at maximum tolerated conditions Locked rotor current Full load power input at maximum tolerated conditions Maximum instantaneous current of the unit Maximum instantaneous current of the unit with soft starter options PUMP 2 PUMP 1 HEAT EXCHANGER 69 CP1B CP1A ELECTRICAL CONNECTIONS Single Fan AC specifications 40.2 50.2 UNIT 60.2 70.2 Power supply 230 - 1 - 50 2,62 10,5 0,60 Power supply 230 - 1 - 50 3,20 12,8 0,72 FLA LRA FLI Single Fan EC specifications 40.2 50.2 UNIT FLA LRA FLI 60.2 Summary Fan AC specifications 40.2 50.2 UNIT Power supply Power supply 115.2 80.2 90.2 100.2 115.2 70.2 80.2 90.2 100.2 6,40 25,6 1,44 Primary-secondary pump 40.2 50.2 UNIT 115.2 70.2 80.2 90.2 100.2 115.2 70.2 80.2 90.2 100.2 115.2 3,20 25,7 1,80 3,20 25,7 1,80 3,20 25,7 1,80 3,20 25,7 1,80 3,20 25,7 1,80 40.2 50.2 60.2 70.2 80.2 90.2 Power supply 100.2 115.2 FLA LRA FLI 3,70 20,0 1,78 3,70 20,0 1,78 3,70 20,0 1,78 3,70 20,0 1,78 3,70 20,0 1,78 400 - 3 - 50 4,50 4,50 4,50 43,5 43,5 43,5 2,55 2,55 2,55 UNIT 40.2 50.2 60.2 70.2 80.2 90.2 Power supply NOTE: FLA = LRA = FLI = MIC = MIC SS = 6,10 57,7 3,48 6,10 57,7 3,48 115.2 6,10 57,7 3,48 6,10 57,7 3,48 6,10 57,7 3,48 60.2 70.2 80.2 90.2 100.2 115.2 3,70 20,0 1,78 3,70 20,0 1,78 3,70 20,0 1,78 400 - 3 - 50 4,50 4,50 4,50 43,5 43,5 43,5 2,55 2,55 2,55 60.2 70.2 80.2 90.2 6,10 57,7 3,48 400 - 3 - 50 6,10 6,10 8,70 57,7 57,7 87,0 3,48 3,48 4,56 Power supply FLA LRA FLI 100.2 400 - 3 - 50 6,10 6,10 8,70 57,7 57,7 87,0 3,48 3,48 4,56 Power supply 3,70 3,70 FLA 20,0 20,0 LRA 1,78 1,78 FLI High head modulating pump 40.2 50.2 UNIT 6,10 57,7 3,48 16,4 54,0 8,40 130.2 145.2 160.2 180.2 200.2 5,70 22,8 3,70 400 - 3 - 50 3,70 3,70 3,70 20,0 20,0 20,0 1,78 1,78 1,78 6,10 6,10 FLA 57,7 57,7 LRA 3,48 3,48 FLI Standard modulating pump 40.2 50.2 UNIT 12,3 40,5 6,30 400 - 3 - 50 Power supply High head pump 130.2 145.2 160.2 180.2 200.2 8,20 27,0 4,20 9,60 38,4 2,16 60.2 130.2 145.2 160.2 180.2 200.2 400 - 3 - 50 7,86 31,4 1,80 60.2 130.2 145.2 160.2 180.2 200.2 400 - 3 - 50 2,85 11,4 1,85 230 - 1 - 50 FLA LRA FLI 70 100.2 230 - 1 - 50 5,24 FLA 21,0 LRA 1,20 FLI Summary Fan EC specifications 40.2 50.2 UNIT FLA LRA FLI Standard pump UNIT 90.2 400 - 3 - 50 4,10 13,5 2,10 70.2 60.2 80.2 6,10 57,7 3,48 100.2 115.2 Full load current at maximum tolerated conditions Locked rotor current Full load power input at maximum tolerated conditions Maximum instantaneous current of the unit Maximum instantaneous current of the unit with soft starter options 8,55 34,2 5,55 11,4 45,6 7,40 130.2 145.2 160.2 180.2 200.2 3,70 20,0 1,78 4,50 43,5 2,55 4,50 43,5 2,55 6,10 57,7 3,48 6,10 57,7 3,48 130.2 145.2 160.2 180.2 200.2 4,50 43,5 2,55 6,10 57,7 3,48 6,10 57,7 3,48 8,70 87,0 4,56 8,70 87,0 4,56 130.2 145.2 160.2 180.2 200.2 8,70 87,0 4,56 8,70 87,0 4,56 8,70 87,0 4,56 10,4 116 6,29 10,4 116 6,29 130.2 145.2 160.2 180.2 200.2 4,50 43,5 2,55 6,10 57,7 3,48 6,10 57,7 3,48 8,70 87,0 4,56 8,70 87,0 4,56 130.2 145.2 160.2 180.2 200.2 8,70 87,0 4,56 8,70 87,0 4,56 8,70 87,0 4,56 10,4 116 6,29 10,4 116 6,29 UM V-ph-Hz A A kW UM V-ph-Hz A A kW UM V-ph-Hz A A kW UM V-ph-Hz A A kW UM V-ph-Hz A A kW UM V-ph-Hz A A kW UM V-ph-Hz A A kW UM V-ph-Hz A A kW UM V-ph-Hz A A kW ELECTRICAL CONNECTIONS Summary tables (total values): Units with primary-secondary pump 40.2 50.2 60.2 UNIT FLA FLI MIC MIC SS Standard unit UNIT 90.2 72,8 38,0 216 146 79,2 45,8 268 178 40.2 50.2 80.2 90.2 Power supply 60.2 73,3 38,0 216 147 80,0 46,6 269 179 60.2 80.2 90.2 75,7 39,7 219 149 81,6 47,5 270 180 70.2 80.2 90.2 400 - 3+N - 50 49,4 57,0 62,4 26,2 30,2 32,8 147 152 177 100 105 121 73,3 38,0 216 147 80,0 46,6 269 179 70.2 80.2 90.2 43,9 FLA 23,4 FLI 137 MIC 93,0 MIC SS Units with high head modulating pump 40.2 50.2 60.2 UNIT Power supply 46,3 25,1 140 95,4 70.2 400 - 3+N - 50 51,8 59,4 64,8 27,9 31,9 34,5 150 155 179 102 107 123 46,3 FLA 25,1 FLI 140 MIC 95,4 MIC SS Units with standard modulating pump 40.2 50.2 60.2 UNIT Power supply 70.2 400 - 3+N - 50 49,4 57,0 62,4 26,2 30,2 32,8 147 152 177 100 105 121 43,9 FLA 23,4 FLI 137 MIC 93,0 MIC SS Units with high head pump 40.2 50.2 UNIT NOTE: FLA = LRA = FLI = MIC = MIC SS = 80.2 43,4 23,4 137 92,5 Power supply FLA FLI MIC MIC SS 70.2 400 - 3+N - 50 48,9 56,5 61,9 26,2 30,2 32,8 147 152 176 99,5 105 120 Power supply 400 - 3+N - 50 51,8 59,4 64,8 27,9 31,9 34,5 150 155 179 102 107 123 75,7 39,7 219 149 81,6 47,5 270 180 100.2 115.2 130.2 145.2 160.2 180.2 200.2 93,7 56,8 263 179 102 62,3 271 187 400 - 3 - 50 110 128 67,8 78,3 271 353 187 205 141 85,9 366 251 165 98,9 361 254 176 106 397 278 100.2 115.2 130.2 145.2 160.2 180.2 200.2 94,5 57,6 264 180 102 63,1 272 188 400 - 3 - 50 110 129 68,6 79,2 272 354 188 206 142 86,8 367 253 168 100 363 257 179 107 400 281 100.2 115.2 130.2 145.2 160.2 180.2 200.2 96,1 58,5 265 181 107 65,1 276 192 400 - 3 - 50 115 132 70,6 80,3 276 357 192 209 145 87,9 370 255 169 102 365 258 180 109 402 282 100.2 115.2 130.2 145.2 160.2 180.2 200.2 94,5 57,6 264 180 102 63,1 272 188 400 - 3 - 50 110 129 68,6 79,2 272 354 188 206 142 86,8 367 253 168 100 363 257 179 107 400 281 100.2 115.2 130.2 145.2 160.2 180.2 200.2 96,1 58,5 265 181 107 65,1 276 192 400 - 3 - 50 115 132 70,6 80,3 276 357 192 209 145 87,9 370 255 169 102 365 258 180 109 402 282 UM V-ph-Hz A kW A A UM V-ph-Hz A kW A A UM V-ph-Hz A kW A A UM V-ph-Hz A kW A A UM V-ph-Hz A kW A A Full load current at maximum tolerated conditions Locked rotor current Full load power input at maximum tolerated conditions Maximum instantaneous current of the unit Maximum instantaneous current of the unit with soft starter options 71 ELECTRICAL CONNECTIONS 1) Connection to the electricity main • Power supply line; The unit’s power supply line must be laid by following a clearly defined route in order to make it as correct as possible any without any breaks. Pass the line through the opening on the button of the electrical panel. Secure the line integral with the structure of the unit. Then continue inside the panel and connect the conductors directly to the input terminals of the main disconnecting device of the unit. The characteristics of the main lines should be determined by qualified personnel specialized in the design of electrical systems, according to your national regulations and standards. • Power supply system; The power cables of the unit’s supply line must be taken from a system of symmetrical three-phase voltages (difference between voltage max 2%) and of a separate protection conductor. V= 380÷415V f= 50 Hz • Protection on supply side: An automatic switch must be installed on the supply side of the side in order to protect against any overcurrents and indirect contacts that could occur when the unit is operating. It is advisable to install an automatic current limiter switch in order to limit the effective short-circuit current in the connecting point of the unit. This allows a protection device with a lower breaking capacity than that required in the connection point to be sized like the main circuit-breaker of the unit. The line and switch must be coordinated in compliance with the current laws governing electrical safety matters, regarding the type of installation and environmental conditions in which the unit must operate. • Protection conductor (ground wire): The protection conductor from the feeder line must be connected straight to the ground screw identified by code “PE”, which ensures the equipotential connection of all metal grounding points and structural parts of the unit. • Signals and data lines Do not exceed the maximum allowed distance of the cable as shown in the wiring diagram. Put cables away from power lines with a different voltage or emitting electromagnetic noise, if really necessary do not to put in parallel but only cross with these cables to 90°. Do not put cables near equipment that can create electromagnetic interference (antennas, speakers, radio repeaters etc ...). Any shielding of the cable must be connected to a ground without noise, while preserving the continuity across the total length of the cable. • Connection Always refer to the wiring diagram supplied with the unit. Verify that the network has characteristics corresponding to the data shown on the nameplate of the unit. Before starting work, verify that the switching device at the start of the line power unit is open, locked and a warning sign shown. Make the connection to the ground first that the others phase; protect the wires using cable properly fitted. Before powering on the unit, ensure that you have restored all the protections that were removed during work on connection. 2) Electric panel • Protection degree: The electric panel casing is made from sheet metal and has IP54 protection rating at the doors directly accessible from the outside. The other parts of the casing guarantee a protection degree that is at least equivalent to IP22, as established by the current laws in force: this has been achieved since the panel has further protection against the penetration of solid foreign bodies and atmospheric agents thanks to the unit structure in which it is housed. • Starting and stopping function: The red handle on the panel door directly acts on the main circuit-breaker. The handle also acts as a door lock since it ensures that the unit is only powered when the door is shut. The stopping function carried out by the main circuit-breaker is classified as type “0” since the unit is stopped by immediately cutting off the power supply. 3) Reference standards • The provisions established by the following Directives have been complied with to ensure the safety of the electrical products placed on the European Union market: - Low Voltage Directive 2006/95 EEC which also includes the following harmonized standards: CEI EN 60335-1 and 60335-2-40. Classification:CEI EN 60204-1. Safety of unitry. Electrical equipment of units. Part 1: General rules. - Directive 2004/108/EEC concerning “Electromagnetic compatibility”. 4) User connection Inside the electrical panel is available a user terminal where you can have: a) pumps start-up and safety devices b) two user configurable inputs c) digital Input for water paddle flow switch d) integrative resistance output relay e) clean contact for general alarm f) external signal from the compressors running Moreover, VR units contains the following terminals: g) pumps start-up and safety devices h) digital input for remote enable i) digital Input for water paddle flow switch For more details refer to the wiring diagram of the unit. 72 R410A PROTECTION DEVICES Protection devices HIGH PRESSURE The unit is protected against risk of overpressure by means of 4 levels protection chain. Each circuit is equipped with: 1) ATC (Advanced Temperature Control) if present 2) high pressure automatic switch connected to electronic controller 3) high pressure manual switch connected to compressor contactor command 4) high pressure safety valve Protection devices technical data LEVEL 1 2 3 4 Device ATC (Advanced Temperature Control) if present High pressure automatic switch High pressure manual switch High pressure safety valve Trip out (barg) - 41.0 43.0 45.0 Trip in (barg) - 29.5 31.0 41.0 connected to electronic controller electronic controller compressor contactor command Discharge the refrigerant to atmosphere to reduce the system pressure effect Controls the cooling capacity shutting down compressors stop the compressors and the fans of that circuit stop the compressors of that circuit Discharge the refrigerant to atmosphere to reduce the system pressure Automatic YES by keyboard if the high pressure switch has trip-in and after the solution of the problem that generates the alarm Press the button present on the manual pressure switch reset * Not necessary CAUTION *: For more details refers to section monitoring basic system. CAUTION IN CASE OF COMPRESSORS TRIP-OUT BY MANUAL RESET HIGH PRESSURE SWITCH THERE ARE NO EVIDENCES IN THE MONITORING SYSTEM, DO NOT RESET THE PRESSURE SWITCH BEFORE YOU HAVE DONE THE FOLLOWING STEPS: 1) SHUT DOWN THE UNIT USING THE OFF BUTTON 2) THEN RESET THE HIGH PRESSURE SWITCH Protection devices LOW PRESSURE Protection devices DISCHARGE TEMPERATURE (if installed) LEVEL 1 2 LEVEL 2 Device Low pressure transducer Low pressure automatic switch Device Discharge Temperature Trip out (barg) 2 bar 2 bar Trip out 135°C Trip in (barg) 4 bar 4 bar Trip in 120°C connected to electronic controller electronic controller connected to electronic controller effect stop the compressors of that circuit stop the compressors of that circuit effect stop the single compressor reset * YES by keyboard after the solution of the problem that generates the alarm reset * YES by keyboard if the YES by keyboard low pressure switch after the solution of the has trip-in and after the problem that generates solution of the problem the alarm that generates the alarm *: For more details refers to section monitoring basic system. 73 REFRIGERANT FLOW DIAGRAM * : Optional :insulated pipes for BR unit Refrigerant flow diagram IR VB unit with thermostatic expansion valve 74 REFRIGERANT FLOW DIAGRAM * : Optional :insulated pipes for BR unit Refrigerant flow diagram IR VB unit with thermostatic expansion valve 75 REFRIGERANT FLOW DIAGRAM * : Optional :insulated pipes for BP unit Refrigerant flow diagram IP VB unit with electronic expansion valve 76 REFRIGERANT FLOW DIAGRAM * : Optional :insulated pipes for BR unit Refrigerant flow diagram IR VR unit with thermostatic expansion valve 77 USER INTERFACE Keys The unit is managed by a microprocessor controller to which all the loads and control devices are connected by means of a terminal block. The user interface comprises a display and four buttons with which it is possible to show and possibly modify all the unit’s operation parameters. The interface, located in the front part of the unit and accessible from the outside, is protected by a transparent plastic door. A remote control having all the same functions as the interface fitted on the unit is available as an accessory. mode °C Prg 1 3 2 disp 4 Electronic expansion valve controller (optional for IR unit, standard for IP unit) Every button provides for : - a direct function : indicated on the button itself and obtained by pressing the button - an associated function : indicated on the front of the instrument at the corresponding button and obtained by prolonged pressing (3 seconds) of the button - a combined function : obtained by pressing 2 buttons at the same time mode °C Prg 1 2 3 4 disp Main controller ON/OFF - STAND-BY OF THE UNIT: see paragrah “Functions available for the user - ST-BY of the unit”. Button Direct function UP DOWN ESC Increase value of selected parameter Scroll menu up Decrease value of selected parameter Scroll menu down Go to menu higher level without saving the modification Manual defrost - - mode Access the “Operation mode” menu (1) SET Go to menu higher level and save the modification Go to menu lower level Access the “Status” menu disp Changing the display value TUTTI Alarm deactivation - - Button 78 Associated function Combined function + UP + DOWN + ESC + SET Manual reset Access the “Programming” menu NOTA: 1): key for unit on/off with mode selection (see paragrah “Functions available for the user - ST-BY of the unit”). 3 USER INTERFACE Display 88:8.8 The following are shown in normal display : Main controller • unit outlet water temperature (in degrees Celsius with decimal point) • alarm code, if at least one is activated (in case of several alarms the code of the first according to the Table of Alarms is displayed) Electronic expansion valve controller • actual superheating value (in degrees Celsius with decimal point) • alarm code, if at least one is activated (in case of several alarms the code of the first according to the Table of Alarms is displayed) In menu mode the display depends on its position (see menu structure). Operation status and modes Icon Description Colour On fixed On flashing Allarm Red Alarm in progress Alarm deactivated Heating Green Heating mode from keyboard Heating mode from remote Cooling Green Cooling mode from keyboard Cooling mode from remote Stand by Green Standby from keyboard Standby from remote Defrost Green Defrost in progress - Verde non utilizzato not used - Clock Red Time display format 24.00 Time setting format 24.00 Centigrade degrees Red Unit of measure of selected parameter - Bar Red not used - Red not used - Menù Red Menu browsing - Compressor 1 Amber User activated Safety timing 3 3 3 4 4 4 Economy Unit of measure 3 3 4 3 4 4 4 3 4 Relative humidity 3 3 3 3 Users 3 3 3 3 3 4 4 4 Remote control 4 4 4 4 4 4 4 Compressor 23 4 Amber User activated Safety timing not used 3 4 - - - not used 3 4 - - - User activated Safety timing Antifreeze heater 3 4 Amber Supplementary heating element 1st step 3 4 Amber User activated Safety timing Plant pumps3 4 Amber User activated Safety timing 3 4 Fans Suitable for wall mounting, it has all the functions of the standard interface fitted on the unit. The buttons, functions associated with the buttons and the display indications are the same as those provided for the standard interface. All configuration and control operations are further facilitated by the double display which allows the name and value of the selected parameter to be shown at the same time. Refer to the enclosed manual for the installation and connection procedures and operating instructions. 79 USER INTERFACE Menu structure - Main controller The control system is basedd on three menu with tree structure. Menu Operation mode Access procedure Submenu Press (prolonged) Stby Available functions Change operation mode HEAT (ESC button associated function) Press UP button COOL - Value increases, the next label - Value decreases, the next label (UP button direct function) Press DOWN button (DOWN button direct function) Press (prolonged) Main view (disp) (SET button direct function) Menu Access procedure 80 sETp Set point (set by customer) display sETR Set point (actual set point) display Ai Di AO DO CL Hr √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ Submenu USER SERVICE √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ √ Status Procedure (combined function ESC + SET button) Clock display SERVICE Sp Sr Pressure contemporary buttons + RTC USER (SET button direct function) Access procedure Analogue input display Submenu Pres Menu Ai Par CL CR CE CF Ui TR ST Cp PI FE PE Hi HE DF DS HP PL TE AL RC √ √ √ √ √ Available functions Analogue input display Digital input display Analogue output display Digital output display Date and hour adjustment HEAT setpoint display COOL setpoint display HEAT actual setpoint display COOL actual setpoint display Compressors and pumps working hours display Available functions Electronic controller configuration parameters (base controller) Electronic controller configuration parameters (remote controller) Electronic controller configuration parameters (expansion controller) Electronic controller configuration parameters LED Electronic controller configuration parameters (base + remote) Temperature control parameters Operating states parameters Compressor parameters Plant pump parameters Fan parameters Source pump parameters Plant heaters (antifrezze and integration) parameters parameters Source heaters (antifrezze and integration) parameters parameters Defrost parameters Dinamic Setpoint parameters Heat pump block parameters (in HEAT mode) Demand limit parameters Scheduling (time bands) parameters Alarms parameters Heat recoveryparameters USER INTERFACE Access procedure Programmation Menu SubAvailable SERVICE USER SERVICE Available functions menu functions Manual defrost dEF √ Silence alarms ta √ Change in OFF state Off √ st Change in status ON On √ FNC Upload program parameters UL √ Download the program parameters CC dL √ Format Multi Function Key fr √ EUR √ Reset historical alarms Pass - √ √ Enter password EU - √ √ Viewing historical alarms Alarm mute Pressure contemporary buttons + - - - √ √ Alarm manual restore - - - √ √ Enable manual defrost Manual defrost (combined function ESC + SET button) Long press button (UP button function associated) Press SET to go from one level to that below. Press ESC to go to higher level. Press the UP and DOWN buttons respectively to scroll the menu up and down inside the same level. Press the UP and DOWN buttons to modify the value of the selected parameter. Press SET to confirm the modification. Press ESC to not confirm the modification. 81 INPUTS AND OUTPUTS Inputs and outputs COMP. UNIT SB655 IR IR with electronic VB - VD expansion valve (optional) IP IR VR IR with electronic expansion valve (optional) x = Present - = Not present SB655 - main controller SE655 - expansion board XVD420 - electronic expanion valve driver Analog input SE655 XVD420 x - - x - x x x x x - x x x Analog inputs MAIN CONTROLLER (SB655) DESCRIPTION CHARACTERISTICS AI1 water inlet probe plant exchanger NTC temperature sensor (-50°C ÷ 99°C) AI2 AI3 water outlet probe plant exchanger liquid probe ATC / outside air probe / remote ST-BY - S/W.- demand limiteconomy NTC temperature sensor (-50°C ÷ 99°C) NTC temperature sensor (-50°C ÷ 99°C) see AI5 on “digital inputs” configured as digital input AI4 AI5 NTC temperature sensor (-50°C ÷ 99°C) / digital input - Input AI4 is factory-set as not enabled, if present ATC or SND accessory, input AI4 is pre-set by factory. Its configuration for specific use must be carried out at the time of installation according to the needs of the moment, modifying the configuration by parameter. - Input AI5 is factory-set as neutral and its configuration for specific use must be carried out at the time of installation according to the needs of the moment, modifying theconfiguration by parameter. Modification and parameter configuration operations must only be carried out by an authorised service centre or by competent personnel. Analog inputs EXPANSION BOARD (SE655) DESCRIPTION CHARACTERISTICS AI1 Recovery water inlet probe exchanger NTC temperature sensor (-50°C ÷ 99°C) AI2 Recovery water outlet probe exchanger NTC temperature sensor (-50°C ÷ 99°C) Analog inputs ELECTRONIC EXPANION VALVE DRIVER (XVD420) DESCRIPTION CHARACTERISTICS AI1 suction pression transducer electronic transducer 4-20 mA (0 barg ÷ 30 barg) AI3 suction temperature NTC temperature sensor (-50°C ÷ 99°C) Digital input Digital inputs MAIN CONTROLLER (SB655) DESCRIPTION CHARACTERISTICS DI1 Thermal switch compressor 1 – thermostatted delivery 1 –high pressure switch Digital input with voltage-free contact DI2 Thermal switch compressor 2 –thermostatted delivery 2 – high pressure switch Digital input with voltage-free contact DI3 Low pressure switch + sequence meter + fan thermal switch + EEV driver alarm Digital input with voltage-free contact DI4 Thermal switch plant pump 1 Digital input with voltage-free contact DI5 Thermal switch plant pump 2 (if present) Digital input with voltage-free contact DI6 Differential pressure switch + external paddle flow switch Digital input with voltage-free contact AI5-IN DIG Remote ST-BY - S/W.- demand limit-economy Analog input configured as digital *refer to section alarms. ER10-ER11 for more details Note for input DI5 thermal switch pump 2. If only one pump is used and only one thermal switch is required, ID5 can be used as an additional multiconf. input for Remote ST-BY - S/W.demand limit - economy. In this way it is possible to have both the - remote ST-BY, and - S/W - demand limit – economy - External probe DI5 is factory-configured as pump 2 thermal switch. To modify the configuration, refer to the section “configurable inputs setting”. 82 INPUTS AND OUTPUTS Recovery digital inputs EXPANSION BOARD (SE655) DESCRIPTION CHARACTERISTICS DI1 Recovery ON-OFF Enable Digital input with voltage-free contact DI2 Recovery differential pressure switch + paddle flow switch Digital input with voltage-free contact DI3 Recovery thermal switch pump 1 Digital input with voltage-free contact Digital inputs ELECTRONIC EXPANION VALVE DRIVER (XVD420) DESCRIPTION DI1 CHARACTERISTICS Enabling regolation Digital input with voltage-free contact Analog output Analog outputs MAIN CONTROLLER (SB655) DESCRIPTION CHARACTERISTICS AO1 Fans pwm signal for control of single-phase fans in phase cut AO4 Fans signal 0-10V for control of three-phase fans in phase cut AO5 Modulating plant pump signal 4...20mA for inverter control pump Digital output Digital outputs MAIN CONTROLLER (SB655) DESCRIPTION CHARACTERISTICS DO1 Compressor 1 2A resistive relays - 230Vac DO2 Compressor 2 2A resistive relays - 230Vac DO3 Reverse cycle valve 2A resistive relays - 230Vac DO4 Antifreeze resistance – support 1st step 2A resistive relays - 230Vac DO5 Resistance support 2nd step Open collector - 12Vcc max 35mA DO6 Alarm relay 2A resistive relays - 230Vac AO2 Relay plant pump 1 (using 12Vdc external relay) Open collector - 12Vcc max 35mA AO3 Relay plant pump 2 (using 12Vdc external relay) 0 - 10Vdc output - max 28mA Note: AO2 is analog output configured as digital Digital outputs EXPANSION BOARD (SE655) DESCRIPTION CHARACTERISTICS DOE1 Recovery reverse cycle valve 2A resistive relays DOE2 Recovery relay pump 1 2A resistive relays Digital outputs ELECTRONIC EXPANION VALVE DRIVER (XVD420) DESCRIPTION DO1 Alarms CHARACTERISTICS 5A resistive relays - 250Vac 83 CONTROLLER TECHNICAL DATA Main controller SB655 technical data Description Power supply voltage Power supply frequency Power Insulation class Protection rating Ambient operating temperature Ambient operating humidity (non-condensing) Ambient storage temperature Ambient storage humidity (non-condensing) Typical 12-24 V~ 50 Hz / 60 Hz 6 VA 2 Frontal IP65 25 °C 30 % 25 °C 30 % Minimum 10,8-21,6 V~ -10 °C 10 % -20 °C 10 % Maximum 13,2-26,4 V~ 60 °C 90 % 85 °C 90 % Typical 12-24 V~ 50 Hz / 60 Hz 5 VA 2 Frontal IP0 25 °C 30 % 25 °C 30 % Minimum 10,8-21,6 V~ -10 °C 10 % -20 °C 10 % Maximum 13,2-26,4 V~ 60 °C 90 % 85 °C 90 % Minimum -5 °C 10 % -20 °C 10 % Maximum 55 °C 90 % 85 °C 90 % Expansion board SE655 technical data Description Power supply voltage Power supply frequency Power Insulation class Protection rating Ambient operating temperature Ambient operating humidity (non-condensing) Ambient storage temperature Ambient storage humidity (non-condensing) Electronic expansion valve driver EEV - XVD420 technical data Description Power supply voltage Power supply frequency Power Protection rating Ambient operating temperature Ambient operating humidity (non-condensing) Ambient storage temperature Ambient storage humidity (non-condensing) 84 Typical 24 V~ / -50 Hz / 60 Hz 30 VA - 25Watt 2 25 °C 30 % 25 °C 30 % ALARMS Alarm activation and reset The controller can perform a complete diagnosis of the unit, detecting all operation faults and signalling a number of alarms. Activation of an alarm involves : • blocking of users concerned • signalling of alarm code on the display (in case of simultaneous alarms the one with the lowest index is displayed whereas the complete list of active alarms can be shown by accessing the “Status \ AL”) menu • recording of event in the alarms history Alarms that can damage the unit or system require manual resetting or an action by the operator to reset the controller (pressing the UP and DOWN buttons at the same time). It is advisable to carefully check the cause of the alarm and make sure the problem is eliminated before restarting the unit. In any case the unit restarts only if the cause of the alarm has ended. Less critical alarms are automatic reset. As soon as the cause is eliminated the unit starts working again and the alarm code disappears from the display. Some of these alarms become manual reset if the number events per hour exceeds a fixed limit. Press any button to deactivate the alarm : alarm signalling disappears from the display, the alarm LED starts flashing and the Alarm digital output is disabled. This operation does not affect the alarm in progress. Number of events per hour The counting of events per hour is provided for some alarms : if the number of events reaches a fixed limit in the last hour, the alarm goes from automatic to manual reset. Sampling of alarms occurs every 112 seconds. If an alarm is activated several times in a sampling period (112 seconds) it is counted only once. Example. If an number of events per hour equal to 3 is set, it must have a duration of between 2*112 seconds and 3*112 seconds so that the alarm goes from automatic to manual reset. manual-reset Riarmo Manuale Riarmo Automatico automatic-reset alarm Allarme counting Conteggio alarm Campionamento sampling allarmi 1 112 s 2 112 s 3 112 s 112 s Time Tempo Alarms history The controller enables the recording of alarms occurring during unit operation (up to a max. of 99 events). The following are memorised for each event : • alarm code • input time • input date • output time • output date • type of alarm (automatic or manual reset) This information can be shown by accessing the “Programming \ EU” menu. When the number of events memorised is more than 99, alarm Er90 is generated and the subsequent events are memorised overwriting the oldest alarms. The alarms history can be cancelled by means of the Evr function available inside the “Programming \ FnC” menu. 85 ALARMS Er10 Compressor 1 thermal protection Er11 Compressor 2 thermal protection High pressure Er20 Plant circuit water differential pressure switch / paddle switch Er21 Er22 Er25 Er26 Er30 Er31 Er45 Er46 Er47 Er60 Er61 Er62 Er63 Er64 Er68 Er80 Er90 Plant circuit pump 1 thermal protection Plant circuit pump 2 thermal protection Recovery water differential pressure switch / paddle switch Recovery pump 1 thermal protection Plant circuit antifreeze Recovery circuit antifreeze Clock fault error Clock to be set error Remote keyboard communication error Plant exchanger inlet water probe fault Plant exchanger outlet water probe fault Liquid temperature probe Recovery exchanger inlet water probe fault Recovery exchanger outlet water probe fault External air probe fault Configuration error Recordings for alarms history exceeded signalling OFF OFF M DI1 OFF comp.1 M DI2 OFF comp.2 A/M DI6 OFF OFF if manual reset OFF M DI4 OFF OFF OFF p.1 OFF M DI5 OFF OFF OFF p.2 OFF M DIE2 OFF OFF ON OFF M DIE3 OFF OFF ON OFF M AI2 OFF M AIE2 OFF A AI1 OFF OFF OFF OFF OFF A AI2 OFF OFF OFF OFF OFF A AI3 A AI1 OFF OFF OFF OFF OFF A AI2 OFF OFF OFF OFF OFF A AI4 OFF OFF OFF OFF OFF AUXILIARY OUTPUT DI3 EXCHANGER RESISTANCES PLANT A/M (2) PLANT CIRCUIT PUMPS FANS Low pressure + sequence meter + fans thermal switch + EEV driver alarm (if present) COMPRESSORS Er05 Alarm input Code Type of alarm Alarm table A A A A M Notes: (1) A = automatic reset, M = manual reset (2) Only when the alarm becomes manual reset Er05 Low pressure – Sequence meter - Fans thermal protection - EEV driver alarm The alarm becomes manual reset when the number of events per hour is more than parameter al12. The alarm is bypassed for parameter al11 seconds from activation of the compressor or the reverse cycle valve. Er10 Compressor 1 thermal protection The manual-reset alarm intervenes in the event of activation of the compressor thermal protection or the thermostat located on the outlet of the compressor . ER11 Compressor 2 thermal protection The manual-reset alarm intervenes in the event of activation of the compressor thermal protection or the thermostat located on the outlet of the compressor . ER10 ER11 * Compressor 1 thermal protection - Compressor 2 thermal protection - High pressure switch (PAA) The manual-reset alarm intervenes in the event of activation of the compressor 2 thermal protection or the thermostat located on the outlet of the compressor 2 AND in the event of activation of the compressor 1 thermal protection or the thermostat located on the outlet of the compressor 1 and/or more likely it means the auto-reset high pressure switch (PAA) trips in. Er20 / Er25 Differential pressure switch - flow switch plant / recovery The alarm is activated if the associated digital input remains activated for at least 5 seconds and automatically resets if the digital input remains not activated for at least 3 seconds. The alarm becomes manual reset if the digital input remains activated for more than 10 seconds. The alarm is bypassed for 15 seconds from pump activation. ER 21 ER22 / ER26 Pump thermal protections plant / recovery When thermal protection trip in the controller stop the pump and the unit; if the controller manages two pumps it involves the activation of the other, if both thermal protection trip in the controller stops the unit. 86 ALARMS ER20 ER25 Flow switch / water differential pressure switch alarm Unit with 1 pump: The alarm s active if the input is active for at least the time AL15 (plant) / AL18 (source). It remains automatic for the time AL16 (plant) / AL19 (source): if, during this time the alarm is deactivated the unit can restart to work, instead if remains active becomes manual. Unit with 2 pumps: The alarm s active if the input is active for at least the time AL15 (plant) / AL18 (source). It remains automatic for the time AL16 (plant) / AL19 (source): during this time the controller stops the working pump and switch on the other one, if the alarm is deactivated the unit can restart to work, instead if remains active becomes manual. 1 PUMP : PLANT / RECOVERY 2 PUMPS : PLANT / RECOVERY digital input - flow switch alarm digital input - flow switch alarm automatic alarm automatic alarm manual alarm AL15 / AL 18 pump switch manual alarm AL15 / AL 18 AL16 / AL 19 AL16 / AL 19 If there is the flow switch alarm during the first startup of the unit control the cleaness of the water plant. Particularly diring the startup a lot of impurities due to the pipes installation can be present into the hydraulic plant and if the plant was not carefully washed, despite the installation of water filters with adequate mesh size impurities as sand, chips or similar could enter into the exchangers choking them and, in worst cases, lead to a serious damage or broke for freezing (if the excahanger is working as evaporator). Er30 / ER31 Antifreeze plant / recovery The alarm switch off the compressors, activates the heaters and the pumps (if off). It is a very dangerous alarm: check carefully the possible cause and eliminates it before reset the alarm. ER45 Clock failure If the clock is not working it is not possible to set time bands and the record of date and hour for the alarms present in the alarm events. ER46 Alarm: clock to be set There is this alarm if the controller is not electrically supplied for several days. ER47 LAN communication error between electronic controller (base, remote, expansion) There is this alarm if there si not communication between the devices connected trough LAN. ER60 ER61 ER63 ER64 Failure of temperature probes (plant and recovery) This alarm stops the unit. It could be caused for short-circuit, breakage or out of range of the probe Er62 Failure of liquid temperature probe If the alarm is active the fans work only on-off on request (on when compressor is on). It could be caused for short-circuit, breakage or out of range of the probe. In and out defrosting are managed by the timing of compressor. Er68 Failure of external air temperature probe If the alarm is active all controls based on this probe (i.e. dynamic setpoint or defrost) are disabled: the unit can continue to work. It could be caused for short-circuit, breakage or out of range of the probe. Er80 Configuration fault Appears when the parameters are not set correctly. Er90 Maximum number of recordings in alarms history exceeded Indicates that the alarms history buffer is full. Every new alarm will be memorised, cancelling the oldest alarm. * Note: The manual-reset high pressure (PAM) does not have reference on the control display so you can not identify it through the internal diagnostics as it acts directly on contactors, it may happen that the control display does not signal any error but the compressors are however still, in this case switch-off the unit then rearm the manual-reset high pressure switch by pressing the button located at the top of the switch. 87 ALARMS Electrical expansion valve table alarm XVD420 Code Driver input Allarm Cause Effect Alarm type Alarm on main controller Input on main controller Troubleshooting ER01 AI1 Probe AI1 fault Probe fault / shortcircuit / non connected Valve closed Automatic er05 DI3 Check wiring of the probe, replace probe AI1 ER03 AI3 Probe AI3 fault Probe fault / shortcircuit / non connected Valve closed Automatic er05 DI3 Check wiring of the probe, replace probe AI3 ER06 AI1 - AI3 Errore uscita Probe AI1 AI3 fault / shortcircuit Valve saturazione / non connected closed Automatic er05 DI3 Check wiring of the probe, replace probe AI1 AI3 ER07 - MOP alarm Saturation temperature > setpoint MOP 20°C for more than 255 s Valve closed Automatic er05 DI3 Wait for saturation temperature < 20°C ER10 - NO link alarm Serial communication fault Valve closed Automatic er05 DI3 Re-establish connection ER11 W2- W2+ W1- W1+ Motor protection alarm Excedeed absorbed current Valve closed Manual * er05 DI3 Check motor phases, motor connections ER12 W1- W1+ Motor protection alarm Disconnection winding 1 Valve closed Manual * er05 DI3 Check winding connection 1 (terminals 6-7) ER13 W1- W1+ Motor protection alarm Shortcircuit winding 1 Valve closed Manual * er05 DI3 Check winding connection 1 (terminals 6-7) ER14 W2- W2+ Motor protection alarm Disconnection winding 2 Valve closed Manual * er05 DI3 Check winding connection 2 (terminals 4-5) ER15 W2- W2+ Motor protection alarm Shortcircuit winding 2 Valve closed Manual * er05 DI3 Check winding connection 2 (terminals 4-5) Note: * power off and on the driver/unit to reset 88 AVAILABLE FUNCTIONS ST-BY of the unit When the unit is powered it may be in STAND BY status (the display shows the message Stby) or ON status. It is possible to switch between ON and STAND BY by pressing (prolonged) the MODE button. When the unit is STAND BY all the users are disabled and the antifreeze function is not activated. Operation mode selection When the unit is ON, one of the operation modes can be selected by accessing the “Operation mode” menu. - Cooling COOL - Heating HEAT 3 4 - STAND BY StdBY 3 3 4 4 Remote ST-BY This function allows remote selection of the STANDBY mode. If the input is activated (contact open) the controller is in STANDBY 3 4 mode and the operation mode cannot be modified from keyboard. The function is available if one of the configurable inputs is configured for this, contact closed = unit ON (display SIW), contact open = STAND-BY (display StdBY). Working mode remote change-over cooling / heating This function allows remote selection of Cooling or Heating mode. If the input is activated (contact open) the unit is in heating mode. 3 4 4 If the input is not activated (contact closed) the unit is in 3cooling mode. The operation mode cannot be modified from the keyboard (but STANDBY mode can be selected). To enable this function, follow the indications in the section “configurable inputs setting”. Set point The set point value in cooling (COOL) and heating (HEAT) can be set by accessing the “Status \ Sp” menu. The purpose of the controller is to keep the water temperature at the unit inlet as close as possible to the set value, by activating the compressor according to an on-off logic. Note for heat pump mode: It's possible to set a value for outside air temperature (parameter HP11) below which the heat pump operation is stopped (still available, if any, additional integrative heaters). Compressors steps Gradini compressori 1 (temp. AI1) Gradini compressori Compressors steps Heating Cooling 2 2 1 (temp. AI1) Set-point Set-point 3 antifreeze alarm Allarme antigelo 4 Antifreeze The plate-type exchanger is protected by activation of an electrical heating element and activation of the antifreeze alarm, occurring in sequence when the exchanger outlet water temperature reaches dangerous values. The storage tank is protected by the antifreeze heater (accessory) activated in parallel with the plate-type exchanger heating element. ON 3 OFF Compressors Gradini steps parzializzazione control 4 Supplementary electrical heating elements The parameter Hi20 enables operation of the electrical elements supplementing the heat pump when it assumes value 1. The heating elements are activated according to a two-step logic depending on the unit inlet water temperature. When present, the heating elements also carry out a storage tank antifreeze function. Temp. AI2 2 Set-point 1 0 Temp. AI1 89 AVAILABLE FUNCTION Dinamic setpoint The parameter ds00 allows the dynamic setpoint; if ds00=1 the setpoint is corrected as a function of external air temperature (if present). To set the external air temp follow the indications of the section “Configurable Inputs”. The activation of the dynamic setpoint is displayed by the switch-on of the led Economy on the display (money box symbol); it is possible to display the actual setpoint by the parameter . Dinamic setpoint in heating mode It is possible to modify setpoint (ds06 in °C), the proportional band (ds02 in °C), and the maximum differential (ds04 in °C) Set-point Heating: positive Temp. aria esterna AI4 o AI5 Dinamic setpoint in cooling mode It is possible to modify setpoint (ds05 in °C), the proportional band (ds01 in °C), and the maximum differential (ds03 in °C) Cooling : 1 negative Set-point Temp. aria esterna AI4 o AI5 Plant3pump on-off control 4 Pre-pumping: when the unit is switched fromn STD-BY to COOL or HEAT mode firstly the pump is activated and, if there is no alarm, after the time of parameter PI20 the first compèressor can start-up. Post-pumping: when the unit is switched from COOL or HEAt mode to STD-BY firstly the compressors are switched-off and after the time of parameter PI21 the pump is switched off. If the pump is ON is always working at 100%. Plant pump control 3 modulating 4 If the pump is driven by inverter (or similar modulating system) is possible to set the velocity between 30% and 100% of the maximum velocity modifying the parameters PI31 in cooling, PI41 in heating. For instance with PI31=70 and PI41=75 the velocity will be 70% in cooling and 75% in heating Note: When the compressors are off the pump works at minimum velocity. Referring pre and post pumping the pump is managed as in on-offIngresso mode Digitale Demand Demand limit Basing on the state of a digital input, this function allows to force the unit to work with only 1 compressor, so reducing the power input demand. To enable this function follow the indications of the section “Configurable Inputs”. digital input Limit Demand Limit ON ON Ingresso OFF Digitale OFF Demand compressors Limit steps 1 disabling disabilitazione Gradini 1 ON compressori 0 0 OFF 90 disabilitazione Gradini compressori 1 AVAILABLE FUNCTION Funzione economy 3 4 Basing on the state of a digital input, this function allows to modify the setpoint. In cooling mode the setpoint is increased of the value of the parameter tr15 (es. TR15 + 5 °C). In heating mode the setpoint is decreased of the value of the parameter tr25 (es. TR25 - 6°C) To enable this function follow the indications of the section “Configurable Inputs”- “Economy”. The activation of the Economy function is displayed by the switch-on of the led Economy on the display (money box symbol); it is possible to display the actual setpoint by the parameter Settr. The enabling of the Economy function has to be done consideringIngresso the following scheme: Digitale Economy Cooling mode : 1 usually positive value set-point Digital input Economy ON OFF Set-point + Set-point Heating mode : usually negative value set-point HEAT Ingresso digital input Digitale Economy Economy ON OFF Set-point Set-point + Recording hours of operation The controller can record the hours of compressors and pumps operation. Access the “Status \ Hr” menu to show the values. Power failure In case of a power failure, when the power is restored the controller will go to the status prior to the power failure. The procedure is cancelled if a defrost is in progress. All timing in progress is cancelled and reinitialised. Clock The controller has an internal clock for memorising the date and time of each alarm occurring during unit operation (see “Alarms history”). The clock can be set by accordingly to "Date and time set up". History alarms The controller is able to log and save up to 90 alarm events. Alarms are visible in the menu “Par \ eu”. Push SET to display alarm EU00 (if present) that is always the latest, EU01 is the one before and so on. Scroll to UP and DOWN keys to display all the other alarms, push SET to display more information about the event chosen: alarm code (see alarm table), start event time, start event date, stop event time, stop event date,type of alarm (automatic or manual reset). Example of an alarm visualization: alarm event EU01 └ stop event time 20:09 └ alarm code Er01 └ stop event date 28.03 └ start event time 20:01 └ type of alarm auto / manu └ start event date 28.03 Total recovery function (VR unit only) The recovery function thermoregulates on the inlet water AIE1 probe. If there is no demand for cooling power recovery can not be activated. The parameters to adjust are: rC01 recovery set point rC02 recovery differential Attivazione recupero Set point Recupero Rec ON Rec OFF Sonda ingresso Recupero AIE1 91 AVAILABLE FUNCTION Automatic change-over This function is present in the heat pump unit. The automatic change-over function is enable by parameter - Enable change analogue input setting. = 0 = 1 automatic change-over disable automatic change-over enable The automatic change-over can take place from the analog signal of the probe set by parameters - probe selection for automatic change-over: = 0 = 1 = 2 outdoor air temperature inlet water temperature plant exchanger outlet water temperature plant exchanger The entrance in cooling and heating mode with two different differentials set by parameter - Differential for automatic chan-over in heating - and Differential for automatic chan-over in cooling In the neutral zone (between the two set-point) mode can also be set by key. Following an example of automatic change-over based on external air temperature ( = 0) Set Setpoint point COOL COOL Set Set point point HEAT HEAT COOL COO L HEAT HEAT Outdoor Outdoor air air temperature temperature ST04 ST03 Set point COOL and set point HEAT are the real set-point and can differ from set-point and due to climatic regulation enabled (economy function and dinamic set point) Note: is summed to set point COOL; is summed to set point HEAT. - ( + ) < (Set HEAT – Set COOL), otherways the sum of the absolute value of the two differential may not overcome the value of (Set HEAT - Set COOL). Date and time set up The electronic controller is equipped with internal clock (RTC) that allows to record in the alarm events date and hour of each alarm. To modify date and hour, starting from the main view on the display, press the SET button. A single pressure of the button SET enter the view of different folders. Scroll the menu using UP and DOWN buttons until find the folder CL. Press the SET button to enter in the menu. Now in the display you have the label HOUR. You can choose to set hour, date and year scrolling the menu using UP and DOWN buttons. Press the SET button for 3 seconds and enter in the modification menu. To set hour, date and year it will be enough scroll UP and DOWN until the selected value, then press SET button. To exit from the clock adjustment menu press the ESC button until arrive to main view on the display. 92 AVAILABLE FUNCTION Timer scheduling The scheduling allows to set weekly time zones to obtain a reduce in energy consumption when the cooling or heating demand is lower. There are 3 time zones each one with 4 events per hour. For each event, you can set hours and minutes of start and stop, an operating mode (Stand-by or ON), a cooling set point and a heating set point. ATTENTION: you can not change the operating mode via scheduling. The operating mode (cooling or heating) will be the same adopted before the enabling of time scheduling. To enable time scheduling you must set up the date and time into the controller The parameters for the scheduling can be accessed in the “tE” (time event) folder. Enabling The function can be enabled with the parameters tE00 – Enabling scheduling Parameters tE00 Enabling scheduling descroptions Value Scheduling disabled Scheduling enabled 0 1 Management time For each day of the week you can select one of the 3 time zone available Parameters day tE01 tE02 tE03 tE04 tE05 tE06 tE07 Monday Tuesday Wednesday Thursday Friday Saturday Sunday Time zone 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3 3 3 For each time zone you can associate 4 events. The parameters involved in time events are described below: Event hour start time It determines the hour of the start of the event [0-23] Event minute start time It determines the minutes of the start of the event [0-59] Operating Mode ON/Standby It determines the operating mode during the event • 0 = ON • 1 = Stand-by Set point Cool It determines the set point in cooling mode that will be set if the unit is in cooling mode before time scheduling Set point Heat It determines the set point in heating mode that will be set if the unit is in heating mode before time scheduling 93 AVAILABLE FUNCTION Summary parameters table for time scheduling Descrizione Hour / minutes EVENT 1 tE38..tE39 tE66..tE67 tE12 tE40 tE68 SetPoint Cool tE13 tE41 tE69 SetPoint Heat tE14 tE42 tE70 tE17..tE21 tE45..tE49 tE73..tE77 tE17..tE18 tE45..tE46 tE73..tE74 tE19 tE47 tE75 SetPoint Cool tE20 tE48 tE76 SetPoint Heat tE21 tE49 tE77 tE24..tE28 tE52..tE56 tE80..tE84 tE24..tE25 tE52..tE53 tE80..tE81 Mode operating ON/Standby tE26 tE54 tE82 SetPoint Cool tE27 tE55 tE83 Mode operating ON/Standby SetPoint Heat Hour / minutes EVENT 4 Profilo 3 tE66..tE70 tE10..tE11 Hour / minutes EVENT 3 Profilo 2 tE38..tE42 Mode operating ON/Standby Hour / minutes EVENT 2 Profilo 1 tE10..tE14 tE28 tE56 tE84 tE31..tE35 tE59..tE63 tE87..tE91 tE31..tE32 tE59..tE60 tE87..tE88 Mode operating ON/Standby tE33 tE61 tE89 SetPoint Cool tE34 tE62 tE90 SetPoint Heat tE35 tE63 tE91 Example of timer scheduling: You choose to set time zone 1 from Monday to Friday with the following setup: At 07.30 you put the unit ON with a set point of 12°Cin cooling mode, and 40°C in heating mode At 12.30 you change the set point to 14°C in cooling mode, 37°C in heating mode At 13.30 you change the set point to 12°C in cooling mode, 40°C in heating mode At 18.00 you put the unit in stand-by You have to set the following parameters: tE00=1 enabling scheduling tE01, tE02, tE03, tE04, tE05, = 1 time zone 1 EVENT 1 – unit ON tE 10=8 hour tE 11=30 minutes tE 12= 0 ON, unit is ON (pay attention: 0=ON, 1=stand-by) tE 13= 12 tE 14=40 set point cool 12°C set point heat 40°C EVENT 2 – change set point tE17=12 hour tE18=30 minutes EVENT 3 – change set point tE 24=13 hour tE 25=30 minutes tE 26= 0 ON, unit is ON (pay attention: 0=ON, 1=stand-by) tE 27= 12 tE 28=40 set point cool 12°C set point heat 40°C EVENT 4 – unit in stand-by tE 31=18 hour tE 32=00 minutes tE19= 0 ON, unit is ON (pay attention: 0=ON, 1=stand-by) tE 33= 1 stand-by, unit is in stand-by (pay attention: 0=ON, 1=stand-by) tE 20= 12 tE 21=40 tE 34= 12 tE 35=40 set point cool 14°C set point heat 37°C set point cool 12°C set point heat 40°C The operating mode (cooling or heating) adopted is the one already active before the event happens. For Saturday or Sunday you can choose time zone 1 or another time zone (2 or 3) and set the parameters in a similar manner as described in this example. 94 PARAMETERS Common parameters Description TR10 - Temperature controller setpoint in COOL TR13 - Temperature control hysteresis TR14 - Steps/compressors insertion differential TR15 - Setpoint differential in Cool from economy input TR20 - Temperature controller setpoint TR23 - Temperature control hysteresis TR24 - Steps/compressors insertion differential TR25 - Setpoint differential in Heat from economy input dS01 - Temperature controller dynamic differential proportional band in Cool dS02 - Temperature controller dynamic differential proportional band in Heat dS03 - Maximum temperature controller dynamic differential in Cool dS04 - Maximum temperature controller dynamic differential in Heat dS05 - Temperature controller dynamic differential setpoint in Cool dS06 - Temperature controller dynamic differential setpoint in Heat PI30 - Minimum Plant circuit water pump speed in Cool PI31 - Maximum Plant circuit water pump speed in Cool PI40 - Minimum Plant circuit water pump speed in Heat PI41 - Maximum Plant circuit water pump speed in Heat HI22 - Plant exchangerheaters maximum dynamic differential in integration HI25 - Plant exchangerheaters regulator hysteresis in integration HI26 - Plant exchangerheater 2 switch-on setpoint differential in integration AL15 - Flow switch activation/deactivation time on Plant circuit automatic alarm AL16 - Enable flow switch time for Plant circuit manual alarm AL51 - Plant circuit anti-freeze regulator setpoint alarm AL52 - Plant circuit anti-freeze regulator hysteresis alarm Unit Min Max °C °C °C °C °C °C °C °C °C °C °C °C °C °C % % % % °C °C °C sec Sec x 10 °C °C 7 0.1 0.1 -25.5 28 0.1 0.1 -25.5 -50 -50 -50 -50 -50 -50 0 0 0 0 0 0.1 0 0 0 -50 0.1 27 25.5 25.5 25.5 53 25.5 25.5 25.5 99.9 99.9 99.9 99.9 99.9 99.9 100 100 100 100 99.9 25.5 99.9 255 255 99.9 25.5 Unit Min Max °C °C -50 0.1 99.9 25.5 default value 9 1 2.5 5 43 1 2.5 -5 -10 10 5 -5 30 10 20 100 30 100 10 2 3 2 2 3 2 Protection 3 2 2 1 3 2 2 1 1 1 1 1 1 1 2 3 2 3 1 2 2 2 2 1 2 Specific parameters for VR unit Description rC01 - Set point recovery rC02 - Differential recovery default value 41 2 Protection 3 1 Protection 3 = always accessible Protection 1 = accessible by service Protection 2 = not accessible 95 CONFIGURABLE INPUTS The configurable inputs are AI4, AI5 and DI5. For configuration, access the parameters CL and select the required function according to the following tables. I/O AI4 AI5 ID S1 S2 analogue / digital input Polarity Offset (range) / Stato Not configured CL03 = 0 CL33 = 0 CL53 = 0 ---- ---- External probe sensor (provided with accessory SND3) CL03 = 2 CL33 = 9 CL53 = 0 NTC probe CL23 (-12,0... +12,0 [°C]) CL13 = Start value scale AI4 [°C] CL12 = Full scale value AI4 [°C] External probe air as analog input 4-20 mA CL03 = 3 CL33 = 9 CL53 = 0 ---- CL23 (-12,0... +12,0 [°C]) CL13 = Start value scale AI4 [°C] CL12 = Full scale value AI4 [°C] CL03 = 4 External probe air as analog input 0-10 V CL33 = 9 CL53 = 0 ---- CL23 (-12,0... +12,0 [°C]) CL13 = Start value scale AI4 [°C] CL12 = Full scale value AI4 [°C] External probe air as analog input 0-5 V CL03 = 5 CL33 = 9 CL53 = 0 ---- CL23 (-12,0... +12,0 [°C]) CL13 = Start value scale AI4 [°C] CL12 = Full scale value AI4 [°C] External probe air as analog input 0-1 V CL03 = 6 CL33 = 9 CL53 = 0 ---- CL23 (-12,0... +12,0 [°C]) CL13 = Start value scale AI4 [°C] CL12 = Full scale value AI4 [°C] ATC CL03 = 1 CL33 = 0 CL53 = +21 input active open contact open contact = ATC active close contact = ATC not active ON/STBY remote (digital input) CL03 = 1 CL33 = 0 CL53 = +1 input active open contact open contact = STAND-BY close contact = ON Summer / Winter remote (digital input) CL03 = 1 CL33 = 0 CL53 = +3 input active close contact close contact = HEAT (Winter) Demand Limit 50% (digital input) CL03 = 1 CL33 = 0 CL53 = +21 input active close contact close contact = Demand Limit 50% Economy (digital input) CL03 = 1 CL33 = 0 CL53 = +22 input active close contact close contact = economy Not configured CL04 = 0 CL34 = 0 CL54 = 0 ---- ---- External probe sensor (analogic input) CL04 = 2 CL34 = 9 CL54 = 0 NTC probe CL24 (-12,0... +12,0 [°C]) ON/STBY remoto (digital input) CL04 = 1 CL34 = 0 CL54 = +1 input active open contact open contact = STAND-BY close contact = ON Summer / Winter remote (digital input) CL04 = 1 CL34 = 0 CL54 = +3 input active open contact close contact = HEAT (Winter) Demand Limit 50% (digital input) CL04 = 1 CL34 = 0 CL54 = +21 input active open contact close contact = Demand Limit 50% CL04 = 1 CL34 = 0 CL54 = +22 CL44 = 0 input active open contact close contact = economy Economy (analogic input) Not configured ---- ---- CL44 = -48 input active open contact open contact = thermal pump 2 ON/STBY remote CL44 = -1 input active open contact open contact = STAND-BY Summer / Winter remote CL44 = +3 input active close contact close contact = HEAT (Winter) Demand Limit 50% CL44 = +21 input active close contact close contact = Demand Limit 50% Economy CL44 = +22 input active close contact close contact = economy QF2. 2 thermal pump 2 DI5 Configuration * If present the module of pumping two pumps can not get that DI5 must be configured CL44 = -48 The outdoor air sensor (if installed) is factory installed on input AI4; if it is necessary you can install it on input AI4 or AI5, as specified above. The input AI4 can also accept an input signal current (4-20mA) or voltage (0-10V ,0-5V ,0-1V) from a probe external air by the user. 96 PROBE CHARACTERISTICS NTC10K-25°C type temperature probes are used. When the probe bulb is at a temperature of 25°C the electrical resistance measurable at the probe ends with a multimeter is approx. 10 kW. The thermistor of these probes has a negative temperature coefficient: the electrical resistance value decreases as the temperature increases. To find out if a temperature probe is faulty or disconnected, check the correspondence between the resistance value in kW and the bulb temperature in °C according to the following table. Temperature [°C] Resistance [kΩ] Temperature [°C] Resistance [kΩ] Temperature [°C] Resistance [kΩ] 0 25,7950 20 12,2110 40 5,7805 1 24,8483 21 11,7628 41 5,5683 2 23,9363 22 11,3311 42 5,3640 3 23,0578 23 10,9152 43 5,1671 4 22,2115 24 10,5146 44 4,9774 5 21,3963 25 10,1287 45 4,7948 6 20,6110 26 9,7569 46 4,6188 7 19,8546 27 9,3988 47 4,4493 8 19,1259 28 9,0539 48 4,2860 9 18,4239 29 8,7216 49 4,1287 10 17,7477 30 8,4015 50 3,9771 11 17,0963 31 8,0931 51 3,8312 12 16,4689 32 7,7961 52 3,6906 13 15,8644 33 7,5100 53 3,5551 14 15,2822 34 7,2343 54 3,4246 15 14,7213 35 6,9688 55 3,2989 16 14,1810 36 6,7131 56 3,1779 17 13,6605 37 6,4667 57 3,0612 18 13,1592 38 6,2293 58 2,9489 19 12,6762 39 6,0007 59 2,8406 For a reliable check it is not necessary to control each single value, but just several sample values. If the instrument gives an infinite resistance, this means the probe is disconnected. Example. With a temperature of 20°C on the probe, the ohmmeter display will indicate approx. 12.21 kΩ Tester displaying ohm with an adequate scale Room temperature 20°C Probe in question 97 NETWORK COMUNICATION The unit can communicate on serial line using the Modbus communication protocol with RTU coding. The unit can be connected to an RS485 network by means of the serial interface supplied as an accessory, and respond to requests from any master device connected to the network. Serial line settings The serial line must be set as follows : • baud rate : 9600 • data bits : 8 • stop bits : 1 • parity : even All the devices connected to the same serial line MUST use the same settings. Device address To communicate correctly, each device connected to the serial network must have an univocal address (“Modbus individual address”) of between 1 and 247. This address can be set by modifying the parameter CF63. Modbus commands The Modbus commands implemented by the controller are : • parameter reading 3 (Hex 03 : Read Holding Registers) • parameter writing 16 (Hex 10 : Write Multiple Registers) Table of addresses All the available resources are stored in the controller as WORD (2 byte) and therefore require the reading or writing of an entire Modbus register. According to the Modbus protocol, to identify a register of address X the address X-1 must appear in the message. Some registers contain more than one piece of information : in this case the bits representing the resource value are identified by means of the number of bits used (“Bit number”) and by the least significant bit (“Lsb”). In the writing operation for these registers it is necessary to read the current register value, modify the bits representing the resource concerned and rewrite the entire register. Example. Bit number = Lsb = Resource value = 15 0 4 7 3 14 1 13 1 12 0 11 1 10 0 9 0 8 1 7 1 6 1 5 0 4 1 3 1 2 0 1 1 0 0 The resources can be read only (R), write only (W) or read and write (RW). To interpret the value written in the register it is necessary to consider the value of CPL, EXP and UM : CPL : if the register represents a number with sign (CPL = Y) carry out the following conversion : 0 = 32768 = EXP : indicates the exponent of the power of 10 to be multiplied by the register value to obtain the resource value. register value register value < < 32767 : 65535 : EXP -2 -1 0 1 2 MU : resource value = register value resource value = register value – 65536 Multiplier 10-2 0,01 10-1 0,1 100 1 101 10 102 100 indicates the unit of measure of the resource IMPORTANT. DO NOT modify any parameter not indicated in the tables provided or indicated as a read only parameter (R), otherwise the warranty will be cancelled. 98 NETWORK COMUNICATION Modbus address table Label Description TR10 TR20 rC01 RW Register address Bit Lsb CPL EXP Dec Hex number UM Temperature control setpoint in Cool RW 17062 042A6 16 0 Y -1 °C Temperature control setpoint in Heat RW 17074 042B2 16 0 Y -1 °C Recovery regulator set point (only for recovery unit) RW 17742 0454E WORD Y -1 °C Operation hours compressor 1 R 979 003D3 16 0 N 0 ore Operation hours compressor 2 R 981 003D5 16 0 N 0 ore Operation hours plant pump 1 R 987 003DB 16 0 N 0 ore Operation hours plant pump 2 R 989 003DD 16 0 N 0 ore Operation hours source pump 1 R 991 003DF 16 0 N 0 ore Operation hours source pump 2 R 993 003E1 16 0 N 0 ore Analogue input AIL1 R 412 0019C 16 0 Y -1 °C Analogue input AIL2 R 414 0019E 16 0 Y -1 °C Analogue input AIL3 R 416 001A0 16 0 Y -1 °C/Bar Analogue input AIL4 R 418 001A2 16 0 Y -1 °C/Bar Analogue input AIL5 R 420 001A4 16 0 Y -1 °C Analogue input AIE1 R 898 00382 16 0 Y -1 °C Analogue input AIE2 R 900 00384 16 0 Y -1 °C Device in STAND BY R 33028,2 08104 1 bit 2 N 0 num Device in STAND BY (from digital input) R 33028,3 08104 1 bit 3 N 0 num Device in COOL R 33028,4 08104 1 bit 4 N 0 num Device in COOL (from digital input) R 33028,5 08104 1 bit 5 N 0 num Device in HEAT R 33028,6 08104 1 bit 6 N 0 num Device in HEAT (from digital input) R 33028,7 08104 1 bit 7 N 0 num COOL HEAT Select mode COOL W 33552,3 08310 1 bit 3 N 0 num Select mode HEAT W 33552,4 08310 1 bit 4 N 0 num STbY Select mode STAND BY W 33552,5 08310 1 bit 5 N 0 num rC00 Er00 Select recovery mode (only for recovery unit) Er05 Er10 Er11 Er20 Er21 Er22 Er25 Er26 Er27 Er30 Er31 Er45 Er46 Er47 Er60 Er61 Er62 Er63 Er64 Er68 Er80 Er90 RW 50508 0C54C BYTE N 0 num General alarm R 33104 08150 1 bit 0 N 0 flag Circuit 1 digital low pressure alarm -phase sequencer-fan thermal switch - EEV driver R 33104,5 08150 1 bit 5 N 0 flag Compressor 1 thermal switch alarm - high pressure - thermostat R 33105,2 08151 1 bit 2 N 0 flag Compressor 2 thermal switch alarm - high pressure - thermostat R 33105,3 08151 1 bit 3 N 0 flag Plant circuit flow switch alarm R 33106,4 08152 1 bit 4 N 0 flag Plant circuit pump1 thermal switch alarm R 33106,5 08152 1 bit 5 N 0 flag Plant circuit pump2 thermal switch alarm R 33106,6 08152 1 bit 6 N 0 flag Source circuit flowswitch alarm R 33107,1 08153 1 bit 1 N 0 flag source circuit pump 1 thermal switch alarm R 33107,2 08153 1 bit 2 N 0 flag source circuit pump 2 thermal switch alarm R 33107,3 08153 1 bit 3 N 0 flag Plant circuit antifreeze alarm R 33107,6 08153 1 bit 6 N 0 flag Recovery circuit antifreeze alarm R 33107,7 08153 1 bit 7 N 0 flag Faulty clock alarm R 33109,5 08155 1 bit 5 N 0 flag Time lost alarm R 33109,6 08155 1 bit 6 N 0 flag LAN communication absent alarm R 33109,7 08155 1 bit 7 N 0 flag Plant exchanger water input probe faulty alarm R 33111,4 08157 1 bit 4 N 0 flag Plant exchanger water output probe faulty alarm R 33111,5 08157 1 bit 5 N 0 flag liquid probe faulty alarm R 33111,6 08157 1 bit 6 N 0 flag source exchanger water input probe alarm R 33111,7 08157 1 bit 7 N 0 flag Faulty exchanger water output probe alarm R 33112 08158 1 bit 0 N 0 flag Faulty external temperature probe alarm R 33112,4 08158 1 bit 4 N 0 flag Configuration error R 33114 0815A 1 bit 0 N 0 flag Alarm history log full warning R 33115,2 0815B 1 bit 2 N 0 flag * If several operation modes are enabled by mistake: - STAND-BY has priority over HEATING, COOLING - HEATING has priority over COOLING 99 START-UP General Rules To validate the contractual warranty, the unit must be set at work by technicians from an authorized assistance center. Before they are called, check to make sure that all parts of the installation have been completed, the unit levelled, the wet connections made with the relative air vent and the electrical connections made. MAINTENANCE General Rules Maintenance is of extreme importance if the plant is to operate in a regular way and give fade-free service. Have extraordinary maintenance work done by qualified and authorized personnel, according to EU Regulation 303/2008 of 2 April 2008 (and later) that requires companies and technicians that perform maintenance / repair, leakage checking and recovery / recycling gases must be certified as required by local regulations. Comply with the safety precautions given in the relative section of this manual and take all the necessary precautions. The following information is only a guide for the end user. Maintenance keeps unit efficiency, reduce the speed of deterioration over time and collect information and data to understand the efficiency of the unit and prevent failures. We suggest to prepare a booklet of installation according European legislation. Routine maintenance The inspections described below, to which the unit must be subjected, do not require specific technical know-how. They merely include a few simple inspections involving certain parts of the unit. Call an authorized assistance center if actual maintenance work is required. The table below gives a recommended list of inspections which should be carried out at the indicated intervals. Provide controls and interventions more frequently in case of heavy (continuous or intermittent high, close to operating limits, etc ...) or critical (essential service such as data centres, hospital etc ...) use. DESCRIPTION Visual inspection of the unit Inspection of hydraulic circuit Inspection of electrical system Inspection of condensing system Inspection and adjustment of operat. parameters WEEKLY MONTHLY EVERY SIX MONTHS • • • • • • Structure of the unit When checking the condition of the parts that form the structure of the unit, pay particular attention to the parts liable to rust. If traces of rust are noted, they must be treated with rust-inhibitor paint in order to eliminate or reduce the problem. Check to make sure that the external panels and the fans of the unit are well fixed. Bad fixing gives rise to noise and abnormal vibrations. • Hydraulic circuit Check visually to make sure that there are no leaks in the hydraulic circuit. If the pumping module accessory is installed, it is advisable to make sure that the water filter is clean. • Electrical system Make sure that the power cable that connects the unit to the distribution panel is not torn, cracked or damaged in a way that could impair its insulation. 100 MAINTENANCE • Inspection of the condensing system WARNING: The finned pack exchanger has fins made of aluminium or some other thin material, thus even accidental contact could cause cuts. Comply with the instructions in the relative section. • Condensing coils In view of the function of this component, it is very important for the surface of the exchanger to be as free as possible from clogging caused by items that could reduce the fan’s air flow rate and, thus, the performances of the unit itself. The following operations may be required: - Remove all impurities (such as paper scraps, leaves, etc.) that could be clogging the surface of the bank either by hand or using a brush (comply with the above mentioned safety prescriptions). - If the dirt has deposited on the fins and is difficult to remove by hand, use a flow of compressed air or pressurized water on the aluminium surface of the coils, remembering to direct the flow in a vertical and opposite to the standard flow direction to prevent the fins from being damaged. - “Comb” the coils with the relative tool, using the appropriate comb spacing for the fins if some parts of them are bent or squashed. • Helical electric fans Visually inspect these parts to make sure that the electric fans are well fixed to the bearing grille and that this latter is fixed to the structure of the unit. Check the fan bearings, causing abnormal noise and vibration, and close the terminal box and cable glands. • Water heat exchanger The exchanger must ensure the maximum heat transfer possible so keep it clean and free from dirt that may reduce efficiency; make sure that the temperature difference between water outlet temperature and evaporation does not increase over time, if the difference exceeds 8 -10 ° C is necessary to proceed cleaning the water side of the exchanger, keeping in mind the following: water circulation must be in the opposite direction than normal, the fluid velocity does not exceed 1.5 times the nominal velocity and use just water or moderately acid products but only water for final washing. • Water filter Make sure to clean the filter and remove any impurities that block the proper flow of water, contributing to increase pressure drop and therefore energy consumption of the pumps. • Water pumps (if present) Check leakage, the state of the bearings (any anomalies are highlighted by noise and vibration), the closing of the terminal box and integrity of the cable. • Reading and adjustment of the operating parameters This control can be done using the pressure gauges (if installed) of the refrigerant circuits and using the pressure and temperature gauges (if installed) of the hydraulic circuits of the unit (evaporator + heat recovery - if present) Provide a unit book that allows you to track of the actions taken on the unit, so it will be easier to cadence adequately the various interventions and will facilitate a possible troubleshooting. Please take note of: date, type of action, description of action, measurements performed, anomalies identified, alarms registered in the alarm history, etc. ... 101 MAINTENANCE General considerations The unit has been designed with a view to reducing the risks to persons and the environment in which it is installed, to the minimum. To eliminate residue hazards, it is therefore advisable to become as familiar as possible with the unit in order to avoid accidents that could cause injuries to persons and/or damage to property. a. Access to the unit Only qualified persons who are familiar with this type of unit and who are equipped with the necessary safety protections (footwear, gloves, helmet, etc.) may be allowed to access the unit. Moreover, in order to operate, these persons must have been authorized by the owner of the unit and be recognized by the actual Manufacturer. b. Elements of risk The unit has been designed and built so as not to create any condition of risk. However, residue hazards are impossible to eliminate during the planning phase and are therefore listed in the following table along with the instructions about how to neutralize them. Part in question Compressor and delivery pipe Residue hazard Mode Precautions Burns Contact with the pipes and/or compressor Avoid contact by wearing protective gloves Excessive pressure Turn off the unit, check the high pressure switch and safety valve, the fans and condenser Leaking refrigerant Do not pull on the pipes Delivery pipes, heat recovery exchanger and coils Explosion Pipes in general Ice burns Electrical cables, metal parts Electrocution, serious burns Heat exchange coils Cuts Fans Cuts Defective cable insulation, live metal Adequate electrical protection (corparts rectly ground the unit) Contact Wear protective gloves Contact with the skin Do not push the hands or objects through the fan grille c. Pollution The unit contains refrigerant gas and lubricating oil. When scrapping the unit these fluids must be recovered and disposed of in compliance with the regulations in force in the country where it is installed. The unit must not be abandoned during the scrapping stage, but can be stored outside with gas, water and electrical connections closed. d. Disconnection and disposal During disconnection of the unit, avoid gas leakage or liquid spillage on environment, especially if the water has additives or glycol. For dismissing and disposal, deliver the units to specialized centres according to your national laws. 102 SAFETY AND POLLUTION Refrigerant safety card 1 SUPPLIER COMPANY AND PRODUCT IDENTIFICATION Card No. FRIG 8 Product R-410A Supplier company identification RIVOIRA SpA 2 COMPOSITION / INFORMATION ON INGREDIENTS Substance / Preparation Preparation Components / Impurities Contains the following components : Difluoromethane (R32)50 % in weight Pentafluoroethane (R125) 50 % in weight EEC No. Non-applicable for mixtures Trade-name / / 3 IDENTIFICATION OF HAZARDS Identification of hazards Liquefied gas. The vapours are heavier than air and can cause suffocation, reducing the oxygen available for breathing. Rapid evaporation of the fluid can cause freezing. Can cause cardiac arrhythmia. 4 FIRST-AID MEASURES Inhalation Do not administer anything if the person has fainted. Take the person outdoors. Use oxygen or artificial respiration if necessary. Do not administer adrenaline or similar substances. Contact with eyes Rinse thoroughly with plenty of water for at least 15 minutes and see a doctor. Contact with skin Wash immediately with plenty of water. Immediately remove all contaminated garments. Swallowing 5 FIRE-PREVENTION MEASURES Specific hazards Increase in pressure. Dangerous fumes Halogen acids, traces of carbonyl halides. Fire-extinguishing means usable All the known fire-extinguishing means can be used. Specific methods Cool the containers/tanks with water sprays. Special protection equipment Use self-contained breathing apparatus in confined spaces. 6 MEASURES AGAINST ACCIDENTAL SPILLING OF THE PRODUCT Personal protection Evacuate personnel to safe areas. Provide for adequate ventilation. Use personal protection equipment Protection for the environment It evaporates. Product removal methods It evaporates. 7 HANDLING AND STORAGE Handling and storage Ensure an adequate air change and/or extraction in the workplaces. Only use well-ventilated rooms. Do not breathe vapours or aerosols. Carefully close the containers and keep them in a cool, dry and well-ventilated place. Keep in the original containers. Incompatible products Explosives, flammable materials, organic peroxides. 8 CONTROL OF EXPOSURE / PERSONAL PROTECTION Personal protection Ensure adequate ventilation, especially in closed areas. Control parameters Difluoromethane (R32): Recommended exposure limits: AEL (8h and 12h TWA) = 1000 ml/m3 Pentafluoroethane (R125): Recommended exposure limits: AEL (8h and 12h TWA) = 1000 ml/m3 Respiratory tract protection For rescue and for maintenance works in tanks, use self-contained breathing apparatus. The vapours are heavier than air and can cause suffocation, reducing the oxygen available for breathing. Eye protection Total protection glasses. Hand protection Rubber gloves. Hygiene measures Do not smoke. 9 CHEMICAL-PHYSICAL PROPERTIES Relative density, gas (air=1) Heavier than air. Solubility in water (mg/l) Not known, but deemed very low. Appearance Colourless liquefied gas. Odour Similar to ether. Fire point Does not ignite. 10 STABILITY AND REACTIVITY Stability and reactivity No decomposition if used according to the special instructions. Materials to be avoided Alkali metals, alkali-earth metals, granulated metal salts, Al, Zn, Be, etc. in powder. Hazardous products of decomposition Halogen acids, traces of carbonyl halides. 11 TOXICOLOGICAL INFORMATION Local effects Concentrations substantially above the value TLV (1000 ppm) can cause narcotic effects. Inhalation of highly concentrated products of decomposition can cause respiratory insufficiency (pulmonary oedema). Long-term toxicity No carcinogenic, teratogenic or mutagenic effects have been recorded in experiments on animals. Specific effects Rapid evaporation of the fluid can cause freezing. Can cause cardiac arrhythmia. 12 ECOLOGICAL INFORMATION Effects linked to ecotoxicity Pentafluoroethane (R125) Potential global warming with halocarbides; HGWP (R-11 = 1) = 0.84 Potential impoverishment of the ozone; ODP (R-11 = 1) = 0 13 CONSIDERATIONS ON DISPOSAL General Do not dispose of where accumulation can be hazardous. Usable with reconditioning. The depressurised containers must be returned to the supplier. Contact the supplier if instructions for use are deemed necessary. 103 SAFETY AND POLLUTION 14 INFORMATION FOR TRANSPORT Designation for transport LIQUEFIED GAS N.A.S. ( DIFLUOROMETHANE, PENTAFLUOROETHANE ) UN No. 3163 Class/Div 2.2 ADR /RID No. 2, 2nd A ADR/RID hazard no. 20 ADR label Label 2 : non-toxic non-flammable gas. CEFIC Groupcard 20g39 - A Other information for transport Avoid transport on vehicles where the loading zone is not separate from the cab. Make sure the driver is informed about the potential risk of the load and knows what to do in case of accident or emergency. Before starting transport, make sure the load is properly secured and : make sure the valve of the container is closed and does not leak; make sure the blind cap of the valve (when provided) is correctly fitted; make sure the cap (when provided) is correctly fitted and that there is an adequate ventilation passage; ensure compliance with the current provisions. 15 INFORMATION ON REGULATIONS The product must not be labelled according to Directive 1999/45/EC. Comply with the regulations given below, and the relevant applicable updates and amendments. Circulars no. 46/79 and 61/81 of the Ministry of Labour : Risks related to the use of products containing aromatic amines Leg. Decree no. 133/92 : Regulations on the discharge of hazardous substances in waters Leg. Decree no. 277/91 : Protection of workers against noise, lead and asbestos Law 256/74, Decree 28/1/92, Leg. Decree no. 52 dated 3/2/97, Decree dated 28/4/97 as amended : Classification, packing and labelling of hazardous substances and preparations Decree no. 175/88, as amended : Activities with significant accident risks (Seveso Law) Decree no. 203/88 : Emissions into the atmosphere Decree no. 303/56 : Work hygiene Decree no. 547/55 : Regulations on accident prevention Leg. Decree no.152 dated 11/5/99 : Protection of waters 16 OTHER INFORMATION Recommended uses Refrigerant Can cause suffocation in high concentration. Keep in a well-ventilated place. Do not breathe the gas. The risk of suffocation is often underestimated and must be clearly explained during the training of operators. Ensure compliance with all the national and regional regulations. Before using this product in any new process or trial, an in-depth study on safety and compatibility of the product with the materials must be carried out. The above information is based on our current know-how and describes the product according to the safety requirements. It does not however represent a guarantee and assurance of the qualities in a legal sense. Each person responds personally for compliance with such regulations. First aid • Move the victim away from the toxic source, keep him warm and allow him to rest. • Administer oxygen if necessary. • Proceed with artificial respiration if necessary. • Give heart massage in the case of heart failure. • Immediately seek medical help. Contact with the skin: • Immediately thaw the affected parts under running lukewarm water. • Remove contaminated clothing (garments may stick to the skin in the case of ice burns) if they have not adhered to the skin. • Seek medical assistance if necessary. Contact with the eyes: • Immediately rinse the eyes with physiologic eyewash or clean water for at least 10 minutes with the eyelids pulled open. • Seek medical assistance if necessary. Swallowing: • Do not make the victim vomit. If the victim is conscious, have him rinse his mouth out with clean water and then drink 200, 300 ml of water. • Immediately seek medical help. • Do not administer adrenaline or sympathomimetic drugs after exposure owing to the risk of cardiac arrhythmia. For further information about the characteristics of the refrigerant, consult the technical briefs that can be obtained from manufacturers of refrigerant products. 104 The manufacturer declines all responsibility for any inaccuracies in this manual due to printing or typing errors. The manufacturer reserves the right to modify the products contents in this catalogue without previous notice. The manufacturer declines all responsibility for any inaccuracies in this manual due to printing or typing errors. The manufacturer reserves the right to modify the products contents in this catalogue without previous notice. 105 106 DECLARATION OF CONFORMITY 107 COD. 3QE31540 Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.it 108 ">
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Key features
- Outdoor installation
- R410A refrigerant
- Cooling and heating
- Various setting options
- Different models (VB, BR, BP, VD, VR)
- Low-noise operation
- High energy efficiency
- Easy to install and operate
- Advanced controls
- Comprehensive documentation
Frequently asked questions
The RGA series uses R410A refrigerant, which is known for its high energy efficiency and environmental friendliness.
Yes, the RGA series can be used for both cooling and heating applications. The unit can be switched between modes based on the needs of the building.
The RGA series offers various setting options for noise control, performance optimization, and energy efficiency. These settings can be adjusted through the intuitive user interface of the unit.
The maximum volume of water in the system with wet module is specified in the document and can be found on the "Maximum Volume of Water" section.