CAMUS Micoflame Grande MFH2010, MFH2500, MFH3000, MFH3500, MFH4000, MFH2012, MFH2502, MFH3002, MFH3502, MFH4002, MFW2010, MFW2500, MFW3000, MFW3500, MFW4000, MFW2012, MFW2502, MFW3002, MFW3502, MFW4002 Installation operation and service manual

CAMUS Micoflame Grande MFH2010, MFH2500, MFH3000, MFH3500, MFH4000, MFH2012, MFH2502, MFH3002, MFH3502, MFH4002, MFW2010, MFW2500, MFW3000, MFW3500, MFW4000, MFW2012, MFW2502, MFW3002, MFW3502, MFW4002 Installation operation and service manual

Below you will find brief information for Micoflame Grande MFH2010, Micoflame Grande MFH2500, Micoflame Grande MFH3000, Micoflame Grande MFH3500, Micoflame Grande MFH4000, Micoflame Grande MFH2012, Micoflame Grande MFW2010, Micoflame Grande MFW2500, Micoflame Grande MFW3000, Micoflame Grande MFW3500.. This document is a comprehensive guide to installing, operating, and maintaining these water heaters & boilers. It includes detailed instructions on everything from connecting to the gas supply to troubleshooting common problems. With detailed explanations and clear illustrations, this manual will help you to get your appliance up and running smoothly.

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Micoflame Grande MFH2010, MFH2500, MFH3000, MFH3500 Installation Manual | Manualzz

INSTALLATION OPERATION

AND SERVICE MANUAL

MODULATING MICOFLAME® GRANDE

GAS FIRED COMMERCIAL COPPER TUBE BOILERS

FOR HYDRONIC HEATING

Non-Condensing Models; MFH2010, 2500, 3000, 3500, 4000

Condensing Models; MFH2012, 2502, 3002, 3502, 4002

HOT WATER SUPPLY

Non-Condensing Models; MFW2010, 2500, 3000, 3500, 4000

Condensing Models; MFW2012, 2502, 3002, 3502, 4002

H

HLW

WARNING:

If the information in these instructions is not followed exactly, a fire or explosion may result causing property damage, personal injury or death

Do not store or use gasoline or other flammable vapours and liquids in the vicinity of this or any other appliance.

WHAT TO DO IF YOU SMELL GAS

o

Do not try to light any appliance, o

Do not touch any electrical switch; do not use any phone in your building, o

Immediately call your gas supplier from a neighbour’s phone. Follow the gas supplier’s instructions, o

If you cannot reach your gas supplier, call the fire department.

Qualified installer, service agency or the gas supplier must perform installation and service.

To the installer: After installation, these instructions must

be given to the end user or left on or near the heater.

To the End User: This booklet contains important

information about this heater. Retain for future reference.

CAMUS® HYDRONICS LTD.

6226 Netherhart Road, Mississauga, Ontario, L5T 1B7

99-0075

Rev. 02

Table of Contents

1

2

3

GENERAL INFORMATION ................................................................................................................ 1

LOCATION ........................................................................................................................................ 1

AIR REQUIRED FOR COMBUSTION AND VENTILATION ............................................................... 2

4

5

6

ELECTRICAL WIRING....................................................................................................................... 3

NORMAL GAS SUPPLY .................................................................................................................... 3

VENTING ........................................................................................................................................... 4

6.1 OUTDOOR VENTING ........................................................................................................................ 5

6.2 STANDARD VENTING ...................................................................................................................... 6

6.3 SIDEWALL AND VERTICAL VENTING ............................................................................................. 6

6.6 OUTDOOR AIR KIT ........................................................................................................................... 6

6.5 FILTER KIT ........................................................................................................................................ 6

7 WATER PIPING ................................................................................................................................. 7

7.1 PROTECTION DEVICES ................................................................................................................... 8

7.2 FREEZE PROTECTION .................................................................................................................... 9

7.3 CHILLED WATER SYSTEMS ............................................................................................................ 9

7.4 HEATING SYSTEM PIPING ............................................................................................................ 10

7.5 LOW WATER TEMPERATURE SYSTEMS ..................................................................................... 10

7.6 INSTANTANEOUS WATER HEATER ............................................................................................. 10

7.7 HOT WATER SYSTEM PIPING ....................................................................................................... 10

7.8 CONDENSER HEAT RECOVERY MODULE (CHRM) ..................................................................... 10

7.9 PIPING ............................................................................................................................................ 12

7.9.1 Parallel Piping .................................................................................................................................. 12

7.9.2 Primary / Secondary Piping .............................................................................................................. 12

8 INSTRUMENTATION AND CONTROLS ......................................................................................... 15

8.1 SAFETY CONTROLS ...................................................................................................................... 15

8.2 CONTROL PANEL ........................................................................................................................... 15

8.3 SETTING THE APPLIANCE TEMPERATURE CONTROLLER ........................................................ 16

8.4 MODES OF OPERATION ................................................................................................................ 16

8.5 Typical Factory Settings of Parameters for Micoflame® Grande BTC 1 (78-0017) ........................... 21

9 MICOFLAME® GRANDE CONTROL PANEL .................................................................................. 22

9.1 GENERAL SYMBOL DESCRIPTION ............................................................................................... 22

9.2 MODE 1 & 2: SETPOINT OPERATION: VIEW DISPLAY ................................................................ 23

9.3 MODE 1 & 2: SETPOINT OPERATION: ADJUST DISPLAY ............................................................ 24

9.4 MODE 3: DEDICATED DOMESTIC HOT WATER OPERATION: VIEW DISPLAY .......................... 25

9.5 MODE 3: DEDICATED DOMESTIC HOT WATER OPERATION: ADJUST DISPLAY ..................... 26

9.6 MODE 4 & 5: OUTDOOR RESET OPERATION: VIEW DISPLAY ................................................... 27

9.7 MODE 4 & 5: OUTDOOR RESET OPERATION: ADJUST DISPLAY ............................................... 28

9.8 MODE 6 & 7: EXTERNAL TARGET TEMPERATURE INPUT OPERATION: VIEW DISPLAY ......... 29

9.9 MODE 6 & 7: EXTERNAL TARGET TEMPERATURE INPUT OPERATION: ADJUST DISPLAY .... 30

9.10 MODE 8: EXTERNAL DRIVE OPEATION: VIEW DISPLAY ............................................................ 31

9.11 MODE 8: EXTERNAL DRIVE OPEATION: ADJUST DISPLAY ........................................................ 32

9.12 ERROR MESSAGES ....................................................................................................................... 32

10 OPERATION .................................................................................................................................... 34

10.1 START-UP ....................................................................................................................................... 34

10.2 MODULATION SEQUENCE ............................................................................................................ 35

11 PILOT AND MAIN BURNER FLAMES ............................................................................................. 36

11.1 MAIN BURNER ................................................................................................................................ 36

11.2 REMOVAL OF COMBUSTION CHAMBER LINING ......................................................................... 38

11.3 PILOT BURNER .............................................................................................................................. 38

12 OPERATION AND SERVICE ........................................................................................................... 39

12.1 PRE-START CHECKLIST ................................................................................................................ 39

12.2 START-UP ....................................................................................................................................... 39

12.3 SERVICE ......................................................................................................................................... 41

13 LIGHTING INSTRUCTIONS ............................................................................................................ 41

14 TROUBLE SHOOTING GUIDE ........................................................................................................ 42

15 TYPICAL GAS TRAIN ...................................................................................................................... 43

16 ELECTRICAL DIAGRAMS ............................................................................................................... 44

16.1 MF 3500 – 4000 INTERNAL WIRING DIAGRAM ............................................................................. 44

17 EXPLODED VIEW & PARTS LIST ................................................................................................... 45

MICOFLAME® GRANDE REPLACEMENT PARTS LIST ............................................................................ 47

WARRANTY ................................................................................................................................................ 50

1 GENERAL INFORMATION

Camus® Hydronics proudly introduces the

Modulating Micoflame® Grande series of water heaters / hydronic boilers. The Modulating

Micoflame® Grande is a fan assisted appliance based on a push through design which offers several venting options. Heat output is controlled by an adjustable ratio air/gas control valve. The

Modulating Micoflame® Grande models are capable of modulating from 100% down to 40% of rated input. These gas-burning appliances are thoughtfully designed for easy operation and maintenance. We are confident that you will come to appreciate the benefits of our product.

The installation of this heater must conform to the requirements of the authority having jurisdiction or, in the absence of such requirements, to the latest or current as amended National Fuel Gas Code, ANSI Z223.1 or current CAN/CGA B149 Installation Codes.

All electrical wiring must be done in accordance with the requirements of the authority having jurisdiction or, in the absence of such requirements, with the National Electrical Code,

ANSI/NFPA 70 or the Canadian Electrical Code

Part I, CSA C22.1 Electrical Code.

Provisions for combustion and ventilation air must be in accordance with the section “Air for

Combustion and Ventilation”, of the National

Fuel Gas Code, ANSI Z223.1/NFPA 65, or clause 8.2, 8.3, 8.4 of “Natural Gas and Propane

Installation Code”, CAN/CSA B149.1.2, or applicable provisions of the local building codes.

When required by the authority having jurisdiction, the installation must conform to the

Standard for Controls and Safety Devices for

Automatically Fired Boilers, ANSI/ASME CSD-1.

The qualified installer shall instruct the end user in the safe and correct operation of this appliance and shall ensure that the heater is in safe working order prior to leaving the job site.

WARRANTY

Factory warranty shall apply only when the boiler is installed in accordance with local plumbing and building codes, ordinances and regulations, the printed instructions provided with it and good industry practices.

Excessive water hardness causing a lime buildup in the copper coils or tubes is not a fault of the boiler. Consult the factory for recommendations for use in hard water areas.

Damage to the heat exchanger as a result of scaling or corrosive water conditions in nonwarrantable

Excessive pitting and erosion on the inside of the copper tube may be caused by high water velocity or the use of an undersized boiler for a DHW application and is not covered by warranty.

Using or storing corrosive chemicals in the vicinity of this boiler can rapidly attack the copper tubes and voids warranty.

The primary heat exchanger of this boiler is intended to operate under non-condensing conditions. Inlet temperatures must be maintained at 130 o

F (55 o

C) for non-condensing and condensing appliances. Warranty is void if the primary heat exchanger is allowed to operate in condensing mode.

Damage caused by freezing or dry firing voids warranty.

This boiler is not to be used for temporary heating of buildings under construction.

2 LOCATION

Install this appliance in a clean, dry location with adequate air supply and close to a good vent connection.

Do not locate this appliance in an area where it will be subject to freezing unless precautions are taken.

The appliance is approved for installation directly on combustible flooring and should be located close to a floor drain in an area where leakage from the appliance or connections will not result in damage to the adjacent area or to lower floors in the structure.

If necessary a suitable drain pan must be installed under the appliance.

If the appliance is installed above the level of the building’s radiation system, a low water cutoff device must be installed in the appliance outlet at the time of installation. Some local codes require the installation of a low water cutoff on all systems.

Table 1: Service Clearances

TOP:

SIDES:

24” REAR: 24”

24” FRONT: 48”

This appliance is suitable for alcove installation with minimum clearances to combustibles as follows:

Table 2: Clearance to Combustibles

TOP: 12” REAR: 12”

SIDES: 12” VENT: 6”

FLOOR: 0”

1

Figure 1: Appliance Dimensions

Table 3: Appliance Dimensions

B' Dia. Venting E' Dia.

3

Model “I” “K” “L” W' ‘S’

MF2010 6” 68” 34

” 54 ¾” 33 3/8” 3” 1 ½” 12” 12” 14” 12”

MF2500 6” 72” 34

⅝ ”

79” 58” 3” 2” 14” 14” 16” 14”

MF3000 6” 72” 34

⅝ ”

79” 58” 3” 2” 14” 14” 16” 14”

MF3500 6” 72” 34

⅝ ”

103” 81 ¾” 4” 2 ½” 16” 16” 18” 16”

MF4000 6” 72” 34

⅝ ”

103” 81 ¾” 4” 2 ½” 16” 16” 18” 16”

AIR REQUIRED FOR

COMBUSTION AND

VENTILATION

Provisions for combustion and ventilation air must be in accordance with the section “Air for

Combustion and Ventilation”, of the National

Fuel Gas Code, ANSI Z223.1/NFPA 65, or clause 8.2, 8.3, 8.4 of “Natural Gas and Propane

Installation Code”, CAN/CSA B149.1.2, or applicable provisions of the local building codes.

The operation of exhaust fans, compressors, air handling units etc. can rob air from the room, creating a negative pressure condition leading to reversal of the natural draft action of the venting system. Under these circumstances an engineered air supply is necessary.

If the heater is to be installed near a corrosive or potentially corrosive air supply, the heater must be isolated from it and outside air should be supplied as per code.

Potentially corrosive atmospheres will result from exposure to permanent wave solution, chlorinated waxes and cleaners, chlorine, water softening chemicals, carbon tetrachloride, halogen based refrigerants, Freon cleaning solvents, hydrochloric acid, cements and glues, masonry washing materials, antistatic fabric softeners, dry cleaning solvents, degreasing liquids, printing inks, paint removers, etc.

2

4 ELECTRICAL WIRING

All electrical wiring to the appliance must be electrically bonded to ground in accordance with the requirements of the authority having jurisdiction or, in the absence of such requirements, with the National Electrical Code,

ANSI/NFPA 70 or the Canadian Electrical Code

Part I, CSA C22.1, Electrical Code.

Provide disconnecting means of sufficient rating within sight of the appliance. These heaters require an 115V 60 Hz supply. A 15-amp breaker is sufficient for appliances with input up to 3,000 MBTUH. For appliances with input over

3,000 MBTUH, use a 20-amp breaker. The pump requires a separate power supply.

Electrical connections must be made so that the circulator will operate before the gas valve can open. At no time may the control system allow the burner to fire without water flowing in the system.

Use minimum 18-gauge conductor for 24-volt field wiring to appliance. Splicing of wires is not recommended. Use sealed tight conduit suitable for outdoor use for outdoor installations. Use terminal strip provided inside control panel for low water cut-off and remote controller. Refer to wiring diagram provided with appliance.

3

5 NORMAL GAS SUPPLY

This appliance is intended to operate at inlet gas pressures not exceeding 1/4 PSI (7“W.C.) when firing with natural gas. If higher pressures are present, consult the gas company for correction.

The appliance and its individual gas shut-off valve must be disconnected from the supply piping, when pressure testing the gas supply piping at pressures above ½ PSI. Provide a trap

(drip leg) as close to the heater as possible.

Install a ground joint union and manual shut-off valve in the gas line near the heater to allow easy removal of the gas control assembly. The gas pressure at the appliance’s inlet must be set in accordance with Table 4.

Table 4: Gas Pressure Limits at Inlet to Appliance

Min. Running (inches W.C.)

Max. Lockup (inches W.C.)

PROPANE

NATURAL GAS

10 4

11 14

The gas supply line must be of adequate size to prevent undue pressure drop and must never be smaller than the size of the connection on the heater. Table 5 lists recommendation for gas pipe sizes. Before operating the appliance, the complete gas train and all connections must be tested using non-corrosive soap solution.

Table 5: Gas pipe size for distance from natural gas meter or propane second stage regulator

Input

Btu/Hr

2,000,000

2,500,000

3,000,000

3,500,000

4,000,000

Input

Btu/Hr

2,000,000

2,500,000

3,000,000

3,500,000

4,000,000

Input

Btu/Hr

2,000,000

2,500,000

3,000,000

3,500,000

4,000,000

0-100 FT*

NAT.

2 ½”

L.P.

2”

3”

3”

3”

4”

2 ½”

2 ½”

2 ½”

2 ½”

100-200 FT*

NAT.

3”

L.P.

2 ½”

3”

4”

4”

4”

2 ½”

3”

3”

3”

200-300 FT*

NAT.

3”

L.P.

2 ½”

4”

4”

4”

4”

3”

3”

3”

3”

6 VENTING

Appliances for outdoor installation are intended to vent using a listed vent cap.

For indoor installations venting must be in accordance with Part 7, Venting of Equipment, of the latest or current as amended National

Fuel Gas Code, ANSI Z223.1, or Section 7,

Venting of Equipment and Air Supply for

Appliances, of the latest or current as amended

CAN/CGA B149, Installation Codes, and applicable provisions of the local building codes.

Vent connectors serving appliances vented by natural draft shall not be connected into any portion of mechanical draft systems operating under positive pressure.

Horizontal runs of vent pipe shall be securely supported (approximately every 4 feet) to prevent sagging and maintain a minimum upward slope of ¼” per foot from the appliance to the vent terminal.

When an existing appliance is removed from a common venting system, the common venting system is likely to be too large for proper venting of the appliances remaining connected to it. At the time of removal of an existing appliance, the following steps must be followed with each appliance remaining connected to the common venting system placed in operation, while the other appliances remaining connected to the common venting system are not in operation. a) Seal any unused openings in the common venting system. b) Visually inspect the venting system for proper size and horizontal pitch and determine that there is no blockage, restriction, leakage, corrosion or other deficiency, which could cause an unsafe condition. c) Insofar as is practical, close all building doors and windows and all doors between the space in which the appliances remaining connected to the common venting system are located and other spaces of the building. Turn on clothes dryers and any appliances not connected to the common venting system. Turn on any exhaust fans, such as range hoods and bathroom exhausts, so they will operate at maximum speed,

4 do not operate a summer exhaust fan.

Close fireplace dampers. d) Place in operation the appliance being inspected. Follow the lighting instructions. Adjust thermostat so that appliance operates continuously. e) Test for spillage at the draft control device relief opening after 5 minutes of main burner operation. Use the flame of a match or candle or smoke from a cigarette. f) After it has been determined that each appliance remaining connected to the common venting system properly vents when tested as outlined above, return doors, windows, exhaust fans, fireplace dampers and any other gas-burning appliance to their previous condition of use. g) Any improper operation of the common venting system must be corrected so that the installation conforms to the latest or current as amended National

Fuel Gas Code, ANSI Z223.1 or the current CAN/CGA B149, Installation

Codes. When resizing any portion of the common venting system, the common venting system should be resized to approach the minimum size as determined using the appropriate tables in Part 11 of the latest or current as amended National Fuel Gas Code,

ANSI Z223, 1 or the current CAN/CGA

B149, Installation Codes.

Hydronic heating heat exchanger surfaces and vent piping should be checked at least yearly for deterioration and carbon deposits. Domestic hot water heat exchanger surfaces and vent piping should be checked every 6 (six) months.

Remove all soot or other obstructions from the chimney and flue, which might impede draft action. Replace any damaged or deteriorated parts of the venting system.

A qualified service technician should follow this procedure when inspecting and cleaning the heat exchanger and vent pipe.

1. Turn off electrical power and close main manual gas shut-off and allow appliance to cool down

2.

Remove the vent pipe running to chimney. Remove top outer panel and flue collector access panel. Check heat exchanger, vent and chimney for obstruction and clean as necessary.

3. Remove burner from appliance and vacuum the heat exchanger. If heat exchanger is excessively dirty it may be necessary to remove it from the appliance and wash it down with proper detergent cleaner. Be aware that the combustion chamber base is insulated with ½” thick ceramic blanket. If this material is damaged or displaced it must be replaced before starting up the appliance.

4. Reinstall parts removed in steps 2 and

3. Be sure that vent pipe has proper pitch and is properly sealed. Repair or replace any gaskets, which may have been damaged in steps 2 and 3.

5. CAUTION: When replacing the burner be careful to fully engage the back of the burner box into the retaining slot in the combustion chamber base. Failure to properly locate the burner will result in erratic flame operation with the possibility of delayed ignition on light off.

Once in place make sure that the burner box is sealed against the seal gasket provided at the mixing tube.

6. Restore electrical power and gas supply to the appliance.

7. Place appliance in operation using lighting instructions provided.

8. While the appliance is operating, check for flue gas leaks and proper vent operation. Seal any flue gas leaks using appropriate gasket or sealing material.

Carefully examine the flue collector access panel and heat exchanger ends.

5

The Micoflame® Grande is category 1, 85% efficient when supplied as a non-condensing appliance. When supplied with the optional condensing cartridge, the Micoflame® Grande is

95% efficient and is considered to be a category

II or IV appliance. Three venting options are available for this appliance in both condensing and non-condensing configurations. See Figure

2 for details. (Please refer to Table 3 for vent dimensions)

Figure 2: Venting Arrangement

6.1 OUTDOOR VENTING

When fitted with the factory supplied rain shields and UL approved vent cap, the Micoflame®

Grande is self-venting. The following applies to outdoor installations:

1. Use only factory supplied rain shields.

2. Periodically check to ensure that air intake and vent cap are not obstructed.

3. Locate appliance at least 3 feet away from any overhang.

4. Locate appliance at least ten feet from building air intake.

5. Avoid installation in areas where runoff from adjacent building can spill onto appliance.

6.2 STANDARD VENTING

The non-condensing 85% efficient Micoflame®

Grande is a category I appliance and is approved for venting into a common chimney provided it is in good condition and meeting the local Codes. Typically, the chimney will be ‘B’ vent or brick with clay or metal liner. If the chimney height is much greater than 30 feet or if drafts are in excess of negative 0.05” W.C., it will be necessary to provide a single acting barometric damper directly above the vent collar. This damper will ensure smooth light off and minimize standby loss through the appliance. Be sure to position the damper at least 6” away from the wall of the vent connector.

6.3 SIDEWALL AND VERTICAL VENTING

When fitted with the factory supplied vent terminal, the Micoflame® Grande can vent up to

60 equivalent feet. Elbows can range from 8 to

15 feet in equivalent length depending on centreline radius. See Table 3 for vent sizes.

Appliances may be installed with either a horizontal sidewall vent or vertical roof top terminal. Terminals differ with each application.

Horizontal lengths over 5 feet must be installed using corrosion resistant stainless steel. Use single wall vent and seal all joints or use pressure rated double wall vent.

Refer to local codes for proper installation and location of vent terminals.

When using sidewall vent, all vent connector seams and joints must be sealed with pressure sensitive aluminium tape or silicone sealant as specified by the vent manufacturer. Aluminium tape must meet the provisions of SMACNA

AFTS-100-73 Standard.

When venting through unheated spaces with single wall vent, insulation must be properly wrapped around the vent pipe to prevent flue gas condensation inside the vent.

Periodically check to ensure that the vent terminal is unobstructed.

6

6.6 OUTDOOR AIR KIT

When fitted with the factory supplied air inlet ring and air intake terminal, the Micoflame® Grande can draw outdoor air over an equivalent length of 60 feet. See Table 3 for vent sizes.

Appliances may be installed with either a horizontal sidewall vent or vertical roof top terminal. Terminals differ with each application.

The following applies to outdoor air installations:

1. Use only factory supplied air intake terminal.

2. Periodically check to ensure that air intake is not obstructed.

3. Refer to local codes for proper installation and location of vent terminals. Vertical vent terminal must be at least 3 feet above the highest point where it is located above the roof of a building

4. Locate the air intake at least five feet away from the vent discharge. For sidewall venting locate the air intake below the vent outlet if possible.

6.5 FILTER KIT

A slot at the bottom of the rear panel is the standard air inlet configuration for the

Micoflame® Grande. As an option, outside air could be introduced directly through the back or top panels. A filter kit is available. The filter is washable and accounts for an additional pressure loss of less than 0.05” W.C. Highly recommended for dusty environments. The filter kit can also be provided when using the outdoor air kit.

Conventional Venting

Multiple condensing appliances may be vented into a common chimney. The chimney must be lined with AL29-4C or equivalent and a single acting barometric damper must be provided for each appliance.

A qualified professional using a proven ventsizing program with input of accurate operating parameters must properly calculate sizing of the venting system. In applications where flue gas temperatures are lower than can support a

Category II with conventional negative draft, it will be determined at the venting design stage that a positive pressure will be developed in the vent. It will then be necessary to either provide separate vents as for Category IV, or to provide an extractor at the chimney outlet in order to maintain a negative draft in the chimney and allow common venting.

The chimney must be protected from down drafts, rain and debris by using a listed chimney cap. Approval of the installation will be at the discretion of authorities having jurisdiction.

Sidewall and Vertical Venting

The maximum vent length is 60 equivalent feet.

Vent pipe may be run through a vertical or horizontal chase provided that minimum clearances to combustible materials are maintained. The vent should terminate a minimum 12 inches above grade plus normally expected snow accumulation, or 7 feet above grade if located adjacent to public walkways. Do not install over public walkway where local experience indicates condensation or vapour from the appliance creates a nuisance or hazard.

Minimum 3 feet above any forced air inlet located within 10 feet of vent termination.

Minimum 4 feet below, 4 feet horizontally or above any door window or gravity air inlet.

Minimum 4 feet horizontally from electric meters, gas meters, regulators and relief valves. Use appropriately designed thimbles when passing through combustible walls or roofs. Install fire stops where vent passes through floors, ceilings or framed walls. The fire stop must close the opening between the vent pipe and the structure. Locate vent terminal above combustion air intake terminal (if used) and no closer than 2 feet vertically or horizontally.

Vertical venting requires flashing and a storm collar to prevent moisture from entering the structure. Vertical vent termination must be at least 2 feet plus the expected snow accumulation above the roof penetration height.

7 WATER PIPING

Check all applicable local heating, plumbing and building safety codes before proceeding.

With the boiler off, open makeup water valve and allow system to fill slowly. Adjust the pressure regulator to provide at least 15 PSIG in the system when cold.

The circulating pump must be installed at the appliance inlet. Always pump toward the heat exchanger. Minimum operating system pressure must not drop below 30 PSIG when hot.

With all vents open, run system circulating pump for a minimum of 30 minutes with the boiler off.

Open all strainers in the circulating system and check for debris.

Check liquid level in expansion tank. With system full of water at 15 PSIG, the level of water in the expansion tank should not exceed

¼ of the volume with the balance filled with air.

Start up boiler following instructions provided.

Operate entire system including pumps and radiation for at least 1 hour.

Improper piping of this appliance will void the manufacturer’s warranty. Improper piping arrangement may cause heat exchanger tube failure resulting in flooding and extensive property damage. Excessive water hardness causing scaling in the copper heat exchanger tubes is not covered under the manufacturer’s warranty. Excessive pitting and erosion of the internal surface of the copper heat exchanger tubes due to high water velocity or chemicals is not covered under the manufacturer’s warranty.

Improper operation of this appliance by permitting return water temperature below 130 o

F

(55 o

C) will result in flue gas condensation leading to corrosion deposits on the heat exchanger tubes and will void the warranty.

To eliminate trapped air, install venting devices at high points in the system as well as in the piping on the suction of the pump and in the piping on the discharge of the appliance.

Suitable pipe hangers or floor stands must support the weight of all water and gas piping.

7

The appliance must be installed so that the gas ignition system components are protected from water (dripping, spraying, rain, etc.) during appliance operation and service (circulator replacement, control replacement, etc.)

Shut off valves must be installed at the inlet and outlet connections of the appliance to provide for isolation of the heat exchanger for servicing. If the appliance is installed above radiation level, it must be provided with a low water cutoff device at the time of appliance installation.

This appliance is of a low mass design, which provides for instant heat transfer. Special attention to water flow rates will ensure that temperature rise does not exceed 35°F (19.4°C).

Table 6 is provided as a guide. For application in areas known to have hard water conditions, or for soft water contact factory for recommendations.

Table 6: Flow vs. Head Loss for Various

Temperature Rise

Model

2010

2500

3000

3500

4000

Model

2010

2500

3000

3500

4000

Model

2010

2500

3000

3500

4000

20°F

USGPM

170

200*

200*

200*

200*

30°F

USGPM

113

141

170

198

200*

35°F

USGPM

97.0

121.0

146.0

170.0

194.0

10.2

10.2

P ft.

5.1

8.2

8.2

P ft.

2.4

4.3

6.2

10.2

10.2

∆ P ft.

1.8

3.3

4.5

7.7

9.8

* Maximum flow recommended. Temperature rise will be exceeded. CuNi heat exchanger should be considered for flow rates exceeding maximum recommended flows.

8

7.1 PROTECTION DEVICES

PRESSURE RELIEF VALVE (shipped loose)

This appliance is supplied with a relief valve sized in accordance with ASME Boiler and

Pressure Vessel Code, Section IV (“Heating

Boilers”). The relief valve is to be installed in the vertical position and mounted in the hot water outlet. No valve is to be placed between the relief valve, and the appliance. To prevent water damage, the discharge from the relief valve shall be piped to a suitable floor drain for disposal when relief occurs. No reducing couplings or other restrictions shall be installed in the discharge line. The discharge line shall allow complete drainage of the valve and line. Relief valves should be manually operated at least once a year.

CAUTION

Avoid contact with hot discharge water

LOW WATER CUT-OFF (if equipped)

If this boiler is installed above radiation level, a low water cut-off device must be installed at the time of boiler installation. Some local codes require the installation of a low water cut-off on all systems. Electronic low water cut-offs are available as a factory supplied option on all models. Low water cut-offs should be tested every six (6) months. The normally open switch contact of the low water cutoff is to be wired in series with the flow switch. A diagnostic light will be indicated on the control display on a low flow condition.

CAUTION

Remove jumper between H & P1 when connecting to

24 VAC circuit.

Figure 3: Low Water Cutoff Electrical

Connections (Watts)

Figure 4: Low Water Cutoff Electrical

Connections (ITT)

FLOW SWITCH (shipped loose)

A water flow switch is shipped loose and is to be installed in the outlet piping on all heating boilers and hot water supply boilers. The flow switch is wired in series with the 24VAC safety control circuit. A diagnostic light will be indicated on the control display on a low flow condition.

7.2 FREEZE PROTECTION

Appliance installations are not recommended outdoors or in areas where danger of freezing exists unless precautions are taken. Maintaining a mixture of 50% water and 50% propylene glycol is the preferred method of freeze protection in hydronic systems.

This mixture will protect the appliance to approximately -35ºF (-37ºC). To maintain the same temperature rise across the appliance increase the GPM flow by 15% and the head loss by 20%.

The following example demonstrates the procedure to follow for calculating the revised head for the heat exchanger when using a water/glycol mixture.

Given for example that Camus® is showing a heat exchanger flow and head loss of 100 gpm @ 10 feet

Increasing the flow by 15% now results in a head loss of 13 feet at 115 gpm (from

B&G system syzer). At this increased flow

Camus® now recommends to increase the head loss by 20%.

9

The requirement for the heat exchanger with water / glycol mixture will now be

115 gpm @ 15.6 feet. (ie. 1.2 x 13ft. =

15.6 ft.)

A similar procedure must be followed to calculate the additional head loss in pipe and fittings in order to arrive at the proper pump selection.

For Outdoor installations a snow screen should be installed to prevent snow and ice accumulation around the appliance. Regular inspections should be made to ensure that air intake and vent are free of snow and ice. Always consider the use of a shelter such as a garden shed in lieu of direct exposure of the appliance to the elements. The additional protection afforded by the shelter will help to minimize nuisance problems with electrical connections and will allow easier servicing of the appliance under severe weather conditions.

7.3 CHILLED WATER SYSTEMS

When an appliance is connected to an air conditioning system where the same water is used for heating and cooling, the chiller must be piped in parallel with the appliance. Appropriate flow control valves; manual or motorized must be provided to prevent the chilled water from entering the appliance. (See Figure 6)

Figure 5: Typical Chilled Water System

When an appliance is connected to heating coils located in air handling units (where they may be exposed to refrigerated air circulation), the appliance piping system shall be equipped with a flow control valve or other automatic means to prevent gravity circulation of chilled water through the appliance. Chilled water in the appliance will create condensate on the appliance tubes, which will collect in the combustion chamber causing corrosion.

7.4 HEATING SYSTEM PIPING

In larger systems, it is advisable to connect the appliance to the piping employing the primarysecondary pumping system. This system is used to provide system advantages that would not be available with a single pumping system.

Primary-secondary pumping is illustrated in

Figure 9.

The following are some advantages of the primary-secondary pumping system:

Greatly reduce the stand by losses through the appliance

Minimize heat exchanger wear.

Reduce power consumption

7.5 LOW WATER TEMPERATURE

SYSTEMS

In applications where the heating system requires supply water temperatures below 130°F

(55 o

C), a recirculation line or thermostatic mixing valve must be installed upstream of the appliance pump so that outlet water can be recirculated to raise the inlet temp to a minimum of

130°F (55 o

C) for a recirculation line. Balancing valves, preferably globe valves are used to adjust flow. (See Figure 10)

Adjustment procedure. a. Fully open bypass and outlet valves. b. With appliance running, read inlet temperature after 15 minutes. c. If the inlet temperature is less than 130°F (55 o

C) slowly close outlet valve until the inlet temperature climbs to 130°F

(55 o

C) d. If the inlet temperature is greater than 130°F (55 o

C) but not greater than 140°F (55 o

C) no further adjustment is required. e. Check the inlet temperature after 5 minutes and make final adjustments.

10

7.6 INSTANTANEOUS WATER HEATER

An instantaneous appliance is designed to deliver hot water without the use of a storage tank. It is suitable for applications with variable load such as restaurants, condominiums, apartments and motels. (See Figure 11). Call manufacturer for recommendations.

7.7 HOT WATER SYSTEM PIPING

Piping and components connected to the appliance must be suitable for use with potable water. The appliance should not be connected to any heating system piping or components previously used with non potable water. Hot water storage tanks used in potable water system must be equipped with temperature and pressure relief valve. Figures 12 and 13 illustrate typical water heating piping arrangement for single appliance and multiple appliances.

The storage tanks must be located as close as possible to the appliance to prevent excessive pressure drop. The required flow through the appliance is based on normal water having hardness between 7.5 and 17 grains per gallon.

Water hardness above this range will require higher flow rates to prevent scaling and to prevent erosion of copper-nickel heat exchanger tubes. The manufacturer should be consulted when water conditions outside the aforementioned range are encountered.

The appliance could be fitted with an economizer

(secondary heat exchanger) to achieve nominal efficiency of 95%. This heat exchanger is fabricated from stainless steel and can accept inlet water temperature as low as 40ºF.

7.8 CONDENSER HEAT RECOVERY

MODULE (CHRM)

The Micoflame® Grande All Stainless Steel

CHRM is mounted in a stainless steel inner jacket chamber at the rear of the appliance. The

CHRM is constructed from all stainless steel headers and special multiple horizontal stainless tubes. This CHRM is designed to maximize heat transfer efficiency by fully condensing flue products and is suitable to resist the low pH of condensate.

The CHRM must be supplied with adequate water flow at all times during operation. Do not operate the appliance with the CHRM piped out or isolated.

The CHRM is mounted in the discharge of the flue products from the primary heat exchanger.

This allows additional heat to be absorbed from the flue products exhausted from the combustion process. If isolation valves are provided on the CHRM, the provision of a relief valve at the outlet of the CHRM is recommended. This valve is to be sized at minimum for 10% of the input of the appliance and is to be piped to drain.

When cold water supply with temperatures less than 130ºF (55ºC) passes through the CHRM it will cool the flue products below dew points resulting in the formation of condensation.

Furthermore, the volumetric flow rate of the flue gases will be reduced.

The appliance CHRM loop may be used in condensing mode for a variety of application including domestic hot water and hydronic space heating. Recommended piping arrangement is shown in Figure 5. Maximum capacity through the CHRM is summarized in Table 6; flows in excess of 60 GPM must be bypassed.

Figure 6: Typical Condensing System

When supplied with the CHRM, the Micoflame®

Grande is 95% efficient (category II or IV appliance) which requires the use of a special venting system fabricated from AL29-4C or equivalent material. Only venting components listed by a nationally recognized testing agency may be used.

This appliance may be installed with conventional, sidewall or vertical venting.

Conventional vented appliances operate with negative pressure in the vent pipe and require a special vent adapter to increase the flue outlet diameter. Sidewall and vertically vented appliances operate with positive pressure in the vent pipe and may be directly connected to the flue outlet without the use of an increaser.

Consult the vent pipe manufacturer’s instructions for minimum clearances to combustible material for vent components. In the absence of instructions, the minimum clearance to combustible material is six inches.

Consult vent pipe manufacturer’s instructions for proper method of sealing vent pipe sections and fittings. In the absence of instructions, make sure that pipe and fittings are clean by swabbing with alcohol. Use Dow Corning 736 or 732 RTV,

Polybar # 500 RTV or Sil-bond 4500 or 6500 to seal vent pipe. Do not use other sealants or adhesives except as expressly permitted by vent manufacturer’s instructions.

Consult vent pipe manufacturer’s instructions for vent system assembly. Follow vent pipe manufacturer’s instructions if those instructions differ from this section.

Figure 7: Secondary Heat Exchanger

Condensate from the Micoflame® Grande must be treated before being discharged to drain. pH level of the condensate is to be checked regularly and the neutralizing medium is to be replaced as required. A neutralizing cartridge is available from the factory. The condensing

Micoflame® Grande must be vented using only special venting type AL29-4C stainless steel or equivalent, please follow instructions detailed below.

11

Table 7 – CHRM Head Loss & Flow

Model US GPM ∆ P - Ft.

Figure 8: Parallel Piping

2010

2500

3000

3500

7.9

4000

PIPING

The boiler can be piped in parallel or in primary/secondary to the system. The type of piping chosen affects the location of the control’s operating temperature sensor. The control can either use the boiler outlet sensor or the boiler system sensor.

40.0

50.0

60.0

40.0

40.0

5.5

8.0

11.0

5.5

5.5

7.9.2 Primary / Secondary Piping

In primary / secondary applications, the boiler outlet temperature is typically hotter than the system supply temperature. This occurs as the system supply pipe has a higher flow rate than the boiler outlet pipe. Therefore, the control requires a boiler outlet temperature sensor and a system temperature sensor

Figure 9: Primary / Secondary Piping

7.9.1 Parallel Piping

In parallel piping applications, the boiler outlet temperature is typically the same as the system temperature. Therefore the operating temperature sensor is the boiler outlet sensor.

Figure 10: Typical Heating System

12

Figure 11: Typical Low Water Temperature System

Figure 12: Typical Instantaneous Water System

13

Figure 13: Typical Water Heating System

Figure 14: Typical Water Heating System

14

8 INSTRUMENTATION AND

CONTROLS

8.1 SAFETY CONTROLS

High Temperature Limit

The high temperature limit is located behind the appliance’s access doors. A remote capillary bulb runs to a thermo-well on the outlet side of the inlet/outlet header. The appliance high limit is set at the factory to 210ºF for hot water and

230ºF for heating.

Air Proving Switch

An air proving switch is provided on each burner to prove the operation of the fan and adequate air flow to the burner. The pressure switch sensing point is at the air box below the combustion chamber. The LED indicator for air flow will not illuminate should the pressure switch detect a sustained low air condition.

Blocked Flue Switch

A normally-closed blocked flue switch is provided for the boiler. It senses a blocked flue condition or a blocked fan inlet and shuts down the boiler.

8.2 CONTROL PANEL

The appliance is provided with a control panel at the front. Operating controls are installed inside the control box and are accessible by undoing the thumb screw and opening the door. The diagnostic information centre as well as the on/off switch, 24V fuse, and the appliance temperature controls reside on the control panel door.

Figure 15: Display, Appliance Temperature

Controller and Indicating LED

15

The Boiler Temperature Controller (BTC 1) for this appliance is a Camus® 78-0017

SmartFlame control. The BTC 1 uses a Liquid

Crystal Display (LCD) as a method of displaying boiler information. The BTC 1 is used to setup and monitor the operation of the system. The

BTC 1 uses three push buttons for selecting and adjusting settings.

Boiler Temperature Controller Features:

It initiates the local call for heat and sets the target inlet (appliance inlet) water temperature.

This controller accommodates heating and domestic hot water control with multiple modes of operation which provide set point as well as reset control. It provides the following:

Readings of inlet and outlet temperatures and ∆ T temperature rise

Operation as an auto reset limit.

Operation as a control for inlet water temperature.

Optional tank mounted sensor used in conjunction with inlet sensor.

Adjustable pump delay feature based on

T temperature difference between inlet and outlet temperatures. Accepts 1/6 hp. pump directly across terminals 13 &

14.

Adjustable; target temp

Display of run hours for maintenance purposes. Counter displays up to

999,999 hours.

Flame failure signal 24 V.

Molex connector for ease of service.

Error message display.

Test override feature to test pump operation and alarm.

Pump exercising feature runs pump 10 seconds every three days of no pump operation.

The menu structure for the Appliance

Temperature Control was designed to be intuitive and easy to use for a first time user. To maintain the Micoflame® Modulating boiler at its correct settings two levels of access is provided,

User and Installer with an increasing amount of parameters that can be adjusted by the Installer.

This is done to provide an easy means of communication for the end user and a more indepth approach for factory installers when installing and troubleshooting.

Figure 16: Boiler Temperature Control (BTC 1)

8.3 SETTING THE APPLIANCE

TEMPERATURE CONTROLLER

Press and hold all three buttons simultaneously for 1 second. Pressing the ITEM key again will cause the last setting to be accepted. Once all settings have been made wait for 30 seconds for the BTC 1 to return to normal operating mode. To re-enter the Installer menu press and hold all three buttons simultaneously for 1 second. In normal operating mode the inlet temperature, outlet temperature,

∆ T temperature and ON hours can be viewed by repeatedly pressing the ITEM key. If you wish to check the setting you will have to start again by pressing and holding the buttons simultaneously for 1 second, and then use the

ITEM key to scroll through the settings. After checking the settings allow the BTC 1 to return to normal operation on its own.

16

8.4 MODES OF OPERATION

Mode 1: Constant Temperature Control

This mode is designed for hydronic heating or domestic hot water (DHW). Once a heat demand is present, the BTC 1 turns on the appliance pump and modulates the boiler burner to maintain the boiler target at the boiler inlet sensor. A heat demand is generated when a

24VAC is applied across CD (common demand) and Ht D (heat demand). Once voltage is applied, the BTC 1 turns on the Dem 1 segment in the display.

If the inlet sensor is ½ (half) of the differential below the BOIL TARGET, the BTC 1 then changes the proportional modulation output to the START modulation setting, the Stage contact (pins 15 & 16) close to proceed to trial for ignition. The burner remains at minimum modulation until the flame is proved and then the modulating output changes the boiler burner output to maintain the programmed boiler target temperature at the inlet sensor. If the inlet sensor reaches ½ (half) of the differential above

BOIL TARGET setting, the burner shuts off.

Once the external heat demand is removed, the

BTC 1 turns off the appliance and operates the boiler pump based on the PUMP DELAY setting.

The water temperature is controlled based on a fixed setpoint (BOIL TARGET).The setpoint for inlet water is pre-set to 120 o

F and the auto reset limit is set to 210°F and is fixed. In addition to the auto reset limit the factory installs a manual re-set limit set to 250°F.

Figure 17: Mode 1 Piping & Electrical Layout

Mode 2: Constant Temperature Control at

System Sensor

This mode is designed for hydronic heating.

Once a heat demand is present, the BTC 1 modulates the boiler burner to maintain the boiler target at the system sensor. A heat demand is generated when 24VAC is applied across CD (common demand) and Ht D (heat demand). Dem 1 on the LCD display is lit.

If the system sensor is ½ (half) of the differential below the BOIL TARGET, the BTC 1 then changes the proportional modulation output to the START modulation setting, the Stage contact (pins 15 & 16) closes to proceed to trial for ignition. The burner remains at minimum modulation until the flame is proved and then the modulating output changes the boiler burner output to maintain the programmed boiler target temperature at the system sensor. If the system sensor reaches ½ (half) of the differential above

BOIL TARGET setting, the burner shuts off.

Once the external heat demand is removed, the

BTC 1 turns off the appliance and operates the boiler pump based on the PUMP DELAY setting.

In this case, it is imperative that the system pump operates continuously in order to provide constant circulation past the system sensor.

The water temperature is controlled based on a fixed setpoint (BOIL TARGET).The setpoint for inlet water is pre-set to 120 o

F and the auto reset limit is set to 210°F and is fixed. In addition to the auto reset limit the factory installs a manual re-set limit set to 250°F.

Figure 18: Mode 2 Piping & Electrical Layout

Mode 3: Dedicated Domestic Hot Water

Operation

This mode is designed for domestic hot water. A

DHW sensor must be inserted into a temperature immersion well within the DHW tank to function properly. The BTC 1 modulates the boiler based on the boiler inlet sensor to maintain a tank temperature at the DHW sensor.

An internal heat demand is generated when the

DHW sensor drops ½ (half) of the tank differential setting below the desired DHW tank temperature. Dem 1 is lit on the LCD screen.

The BTC 1 then changes the modulation output to the START modulation setting and closes the

Stage contact (pins 15 & 16) to proceed to trial for ignition. The burner remains at minimum modulation until the flame is proved and then modulating output changes the boiler output to maintain the programmed boiler target temperature at the boiler inlet sensor. Once the

DHW tank reaches ½ of the tank differential above the TANK TARGET setting, the internal demand is removed and the boiler burner is shut off. The pump circulates until the PUMP DELAY timer expires.

The TANK TARGET setting is used to set the desired DHW tank setpoint. The set-point for inlet water is pre-set to 130°F and can be adjusted, the auto re-set limit is set to 210°F and is fixed. In addition to the auto reset limit the factory installs a manual re-set limit set to 210°F.

Figure 19: Mode 3 Piping & Electrical Layout

17

Mode 4: Outdoor Reset using Boiler Inlet Sensor

This mode is designed for hydronic heating.

Once a heat demand is present, the BTC 1 turns on the appliance pump and modulates the boiler to maintain the calculated outdoor reset target at the boiler inlet sensor. Outdoor reset calculates the boiler target temperature based on the outdoor air temperature and reset ratio.

A heat demand is generated when a voltage between 24VAC and 120VAC is applied across

CD (common demand) and Ht D (heat demand).

Once voltage is applied, the BTC 1 turns on the

Dem 1 segment in the display. If warm weather shut down (WWSD) is activated, the WWSD segment is lit.

If WWSD is not activated and the inlet sensor is

½ (half) of the differential below the calculated

BOIL TARGET, the BTC 1 then changes the modulation output to the START modulation setting and closes the Stage contacts (pins 15 &

16) to proceed to trial for ignition. The burner remains at minimum modulation until the flame is proved and then modulating output changes the boiler output to maintain the calculated boiler target temperature at the inlet sensor. If the inlet sensor reaches ½ (half) of the differential above the BOIL TARGET, the appliance is shut off.

The boiler pump continues to circulate until the

PUMP DELAY timer expires.

The water temperature is controlled based on a calculated boiler target temperature. The boiler start (BOIL START) temperature is pre-set to

70 o

F and the auto re-set limit is set to 210°F and is fixed. In addition to the auto reset limit the factory installs a manual re-set limit set to 250°F.

Figure 20: Mode 4 Piping & Electrical Layout

Mode 5: Outdoor Reset using System Sensor

This mode is designed for hydronic heating.

Once a heat demand is present, the BTC 1 turns on the appliance pump and modulates the boiler to maintain the calculated outdoor reset target at the system sensor. Outdoor reset calculates the boiler target temperature based on the outdoor air temperature and reset ratio.

A heat demand is generated when a voltage between 24VAC and 120VAC is applied across

CD (common demand) and Ht D (heat demand).

Once voltage is applied, the BTC 1 turns on the

Dem 1 segment in the display. If warm weather shut down (WWSD) is activated, the WWSD segment is lit.

If WWSD is not activated and the system sensor is ½ (half) of the differential below the calculated

BOIL TARGET, the control then changes the modulation output to the START modulation setting and closes the Stage contacts (pins 15

&16) to proceed to trial for ignition. The burner remains at minimum modulation until the flame is proved and then the modulating output changes the boiler output to maintain the calculated boiler target temperature at the system sensor. If the system sensor reaches ½

(half) of the differential above the BOIL

TARGET, the appliance is shut off. The appliance pump continues to circulate until the

PUMP DELAY timer expires. In this case, it is imperative that the system pump operates continuously in order to provide constant circulation past the system sensor.

The water temperature is controlled based on a calculated boiler target temperature. The boiler start (BOIL START) temperature is pre-set to

70 o

F and the auto re-set limit is set to 210°F and is fixed. In addition to the auto reset limit the factory installs a manual re-set limit set to 250°F.

Figure 21: Mode 5 Piping & Electrical Layout

18

Mode 6: External Target Temperature using

Boiler Inlet Sensor

The external input signal can be provided from a

BMS, EMS or a tekmar tN4 System Control. The external input signal creates an internal demand and changes the boiler target according to a linear scale. The BTC 1 modulates the boiler to maintain the boiler target at the inlet sensor.

An internal heat demand is generated when an analog positive 2-10VDC signal is applied to the

+V input and a negative DC signal is applied to the Com/- input.

The following table shows the various signals required to generate various Target temperatures.

Table 8: External Signal Cross Reference

Chart

4-20 mA

Boiler

Target

0-10V

(dc)*

Boiler

Target

0 - - - (OFF) 0

2

4

- - - (OFF)

50 o

F (10 o

C)

6

8

70 o

F (21 o

C)

90 o

F (32 o

C)

10 110 o

F (43 o

C)

1

2

3

4

5

12 130 o

F (54 o

C)

14 150 o

F (66 o

C)

6

7

16 170 o

F (77 o

C)

18 190 o

F (88 o

C)

8

9

20 210 o

F (99 o

C) 10

* requires 500 Ω resistor

- - - (OFF)

50 o

68 o

86 o

103 o

121 o

139 o

157 o

174 o

192 o

210 o

F (10 o

F (20 o

F (30 o

F (39 o

F (49 o

F (59 o

F (69 o

F (79 o

F (89 o

F (99 o

C)

C)

C)

C)

C)

C)

C)

C)

C)

C)

A 4-20mA signal can be converted to a 2-

10VDC signal by installing a 500 Ω resistor on the external input signal device’s terminal.

If the inlet sensor is ½ (half) of the differential below the Boiler Target, the BTC 1 then changes the proportional modulation output to the START modulation setting, the Stage contact (pins 15 & 16) closes to proceed to trial for ignition. The burner remains at minimum modulation until the flame is proved and then the modulating output changes the boiler burner output to maintain the programmed boiler target temperature at the inlet sensor. If the inlet sensor reaches ½ (half) of the differential above

Boiler Target, the burner shuts off. Once the external heat demand is removed, the BTC 1

19 turns off the appliance and operates the boiler pump based on the PUMP DELAY setting.

The auto re-set limit is set to 210°F and is fixed.

In addition to the auto reset limit the factory installs a manual re-set limit set to 250°F.

Figure 22: Mode 6 Piping Schematic

Mode 7: External Target Temperature using

System Temperature Sensor

The external input signal can be provided from a

BMS, EMS or a tekmar tN4 System Control. The external input signal creates an internal demand and changes the boiler target according to a linear scale. The control modulates the boiler to maintain the boiler target at the outlet sensor.

An internal heat demand is generated when an analog positive 2-10VDC signal is applied to the

+V input and a negative DC signal is applied to the Com/- input.

Table 8 shows the relationship between various external signals to the boiler target temperature.

A 4-20mA signal can be converted to a 2-

10VDC signal by installing a 500 Ω resistor on the external input signal device’s terminal.

If the system sensor is ½ (half) of the differential below the Boiler Target, the BTC 1 then changes the proportional modulation output to the START modulation setting, then closes the

Stage contact (pins 15 & 16) to proceed to trial for ignition. The burner remains at minimum modulation until the flame is proved and then the modulating output changes the boiler burner out to maintain the programmed boiler target temperature at the system sensor. If the inlet sensor reaches ½ (half) of the differential above

Boiler Target, the burner shuts off. Once the external heat demand is removed, the BTC 1 turns off the appliance and operates the boiler pump based on the PUMP DELAY setting.

The auto reset limit is set to 210 o

F and is fixed.

In addition to the auto reset limit, Camus® installs a manual reset limit set to 250 o

F.

Figure 23: Mode 7 Piping & Electrical Layout

Mode 8: External Direct Drive Operation

This mode is designed only for hydronic heating operation. This mode allows for an external control to operate the boiler through an analog direct drive input signal provided by a boiler sequencing control, such as, the S12 Sequencer. When operating in this mode the external heat demand and DHW demand are disabled.

An external boiler sequencer provides a positive

0-10 VDC input signal to the control at +V(in), and the negative signal is applied to the Com/- input.

The boiler remains off while the direct drive input signal range is between 0 to 0.5VDC. Once the direct drive input signal reaches 0.5VDC the control turns on the appliance pump and changes the modulating output to Start

Modulation level until the flame is proved and then the modulating output is adjusted to track the direct drive input signal up to the maximum of 10VDC which is equivalent to maximum input rate. When the direct drive signal modulates down to 0.5VDC, the boiler operates at minimum fire. When the signal drops below 0.5VDC the burner is shut off and the pump continues to circulate until the PUMP DELAY timer expires, whereupon the pump shuts off.

The external boiler sequencer can specify the boiler inlet temperature. However, the BOIL

MAX setting limits the highest temperature at the outlet sensor. If the outlet temperature exceeds

210 o

F, the modulating output immediately changes to 0% and the burner is shut off. The burner is to remain off until the minimum off timer is satisfied and the boiler outlet temperature falls by 2 o

F (1 o

C) below the BOIL

MAX setting.

Figure 24: Mode 8 Piping & Electrical Layout

20

8.5 Typical Factory Settings of Parameters for Micoflame® Grande BTC 1 (78-

0017)

This modulating Micoflame® is equipped with the Camus® version of the Tekmar MPA control.

Summary of 8 Modes of Operation

Mode 1

- For setpoint control at heater inlet sensor. Use for hydronic constant setpoint heating or domestic hot water applications.

- External heat demand or constant

Mode 2

pumping required.

- For setpoint control at system sensor

- Ideal for monitoring constant hot loop or for pool heating

- Intermittent pumping povided.

Mode 3

- For DHW control with tank sensor.

Controls to boiler inlet sensor.

- Intermittent pumping provided

Mode 4

- For hydronic heating with outdoor reset.

Temperature control at boiler inlet sensor with proportional modulating

Mode 5

logic.

- For hydronic heating with outdoor reset.

Temperature control at system sensor with selectable P.I.D. or proportional modulating logic.

- Intermittent pumping provided

Mode 6

- External analogue 0-10VDC signal generates temperature target. Setpoint temperature control at heater inlet sensor using proportional modulating logic.

- Intermittent pumping provided

Mode 7

- External analogue 0-10VDC signal generates temperature target. Setpoint temperature control at system sensor with selectable PID or modulating logic.

- Intermittent pumping provided.

21

Mode 8

- External analogue 0-10VDC signal closes the stage contacts to initiate heater. Modulating output of the control follows the analog external input signal.

Temperature is controlled remotely independently of local settings. Boiler max. setting remains functional.

- Intermittent pumping provided

Factory Settings of Modulating Control

1) Access to the setup menu is achieved by pressing the ITEM, UP and DOWN buttons simultaneously for 1 second.

Parameter

Mode

Target

High Limit

Factory Settings

1

175

o

F (Heating)

140

o

F (DHW)

230

o

F (Heating)

210

o

F (DHW)

Throttling

Range

Modulation

Dly Mod.

Start Mod.

Min. Mod.

Max. Mod.

Differential

10

o

F

4:20

50 sec

Factory Set

Factory Set

Factory Set

5

o

F

Pump Delay 1:00 min

WARNING: DO NOT ATTEMPT TO ADJUST

START, MIN. OR MAX. MODULATION

LEVELS IN THE FIELD.

9 MICOFLAME® GRANDE

CONTROL PANEL

Figure 25: BTC 1 Key Functions

Table 9: BTC 1 Key Functions

KEY

Item

KEY DESCRIPTION

The abbreviated name of the selected item will be displayed in the item field of the display. To view the next item, press the Item button.

Increase a parameter value.

Decrease a parameter value.

Levels of Access

View – Access to general boiler and display settings and will allow adjustments to the central heating and domestic hot water setpoint.

Adjust – Access to all user parameters and allows for changes to additional boiler parameters to allow for ease of startup and serviceability.

22

9.1 GENERAL SYMBOL DESCRIPTION

SYMBOL

SYMBOL

NAME

SYMBOL

DESCRIPTION

Shown when boiler pump is in operation

Boiler

Pump

DHW

Pump

Heat

Demand

Flame

Proof

Shown when

DHW pump is in operation

Shown when heat demand is present

Shown when flame signal is proven

Burner

Warning

Pointers

WWSD

Shown when burner is on

Shown when an error is present

Shows the operation as indicated by the text

Displays when the control is in

Warm Weather

Shutdown

9.2 MODE 1 & 2: SETPOINT OPERATION: VIEW DISPLAY

From the Home display;

1) Press [ITEM] to view the following parameters:

Display

Parameter

Name

Parameter Description

Parameter

Range

Boiler Target

Temperature

To provide a target setpoint for the heating system. Setpoint is controlled to the inlet sensor

---, 35 to 266 o

F

(---, 2 to 130 o

C)

System

Temperature

System Temperature of Primary Loop

NOTE: This parameter is only available in Mode 2

14 to 266

(-10 o to 130

F o

C)

Boiler Outlet

Temperature

Real-time Outlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Inlet

Temperature

Real-time Inlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Delta

T

Real-time temperature difference between the outlet sensor and the inlet sensor.

-99 to 252 o

(-72 to 140 o

F

C)

Modulation

Real-time modulating output percentage

0 to 100%

Total Run

Time Since

Installation

Monitors the amount of operational time since the Micoflame® was installed. The first two digits are the number of thousands of hours and the three digit display shows the number of hundreds of hours.

Press the counter

simultaneously to reset

Alternates between 00 and

999

23

9.3 MODE 1 & 2: SETPOINT OPERATION: ADJUST DISPLAY

From the Home display;

1) Press simultaneously to view the following parameters:

Display

Parameter

Name

Parameter Description

Mode

Operating mode for the boiler.

NOTE: A complete description of each mode can be found in section 8.4 Modes of Operation in this manual.

Boiler Target

Temperature

To provide a target setpoint for the heating system. Setpoint is controlled to the inlet sensor

70 to 220 o

(21 to 104

F o

C)

Default = 120 o

F

(49 o

C)

Differential

Temperature

To provide a modulation rate above and below the Boiler

Target temperature. For example, if the value is 10 o

F and the Boiler

Target is 160 o

F the boiler will begin to modulate at 155 o

F and shut off at 165 o

F.

Au, 2 to 42 o

(Au, -17 to 6

F o

C)

Default = 10 o

F

Pump Delay

Boiler post pump time after burner has shut off, in seconds.

OFF, 0:20 to

9:55 min, On

Default = 1:00 min

Parameter

Range

1 to 8

Default = 1

Temperature

Units

Select the desired unit of measurement o

F, o

C

Default = o

F

24

9.4 MODE 3: DEDICATED DOMESTIC HOT WATER OPERATION: VIEW DISPLAY

From the Home display;

1) Press [ITEM] to view the following parameters:

Display

Parameter

Name

Parameter Description

Parameter

Range

Boiler Target

Temperature

To provide a target setpoint for the heating system. Setpoint is controlled to the inlet sensor

---, 35 to 266 o

F

(---, 2 to 130 o

C)

Boiler Outlet

Temperature

Real-time Outlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Inlet

Temperature

Real-time Inlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Delta

T

Real-time temperature difference between the outlet sensor and the inlet sensor.

-99 to 252 o

(-72 to 122

F o

C)

DHW

Temperature

Real-time DHW Temperature

14 to 266 o

(-10 to 130

F o

C)

Modulation

Real-time modulating output percentage

0 to 100%

Total Run

Time Since

Installation

Monitors the amount of operational time since the Micoflame® was installed. The first two digits are the number of thousands of hours and the three digit display shows the number of hundreds of hours.

Press the counter

simultaneously to reset

Alternates between 00 and

999

25

9.5 MODE 3: DEDICATED DOMESTIC HOT WATER OPERATION: ADJUST DISPLAY

From the Home display;

1) Press simultaneously to view the following parameters:

Display

Parameter

Name

Parameter Description

Parameter

Range

Mode

Boiler Target

Temperature

DHW Target

Temperature

Operating mode for the boiler.

NOTE: A complete description of each mode can be found in section 8.4 Modes of Operation in this manual.

1 to 8

Default = 1

To provide a target setpoint for the heating system. Setpoint is controlled to the inlet sensor

To provide a target setpoint for the DHW system. Setpoint is controlled to the DHW sensor

OFF, 70 to

220 o

F

(OFF,21 to

104 o

C)

Default = 120 o

F

(82 o

C)

OFF, 70 to

190 o

F

(OFF, 21 to

88 o

C)

Default = 140 o

F

(54 o

C)

DHW

Differential

Differential

Temperature

To provide a modulation rate above and below the DHW

Target Temperature. For example, if the value is 10 o

F and the DHW Target Temperature is

160

165 o

F the boiler will begin to modulate at 155 o

F. o

F and shut off at

To provide a modulation rate above and below the Boiler

Target temperature. For example, if the value is 10 o

F and the Boiler

Target is 160 o

F the boiler will begin to modulate at 155 o

F and shut off at 165 o

F.

2 to 10 o

(1 to 5 o

(1 o

C)

F

C)

Default = 3 o

F

Au, 2 to 42 o

(Au, -17 to 5

Default = 10

F o o

C)

F

Pump Delay

Temperature

Units

Boiler post pump time after burner has shut off, in seconds.

Select the desired unit of measurement

OFF, 0:20 to

9:55 min, On

Default = 1:00 min o

F, o

C

Default = o

F

26

9.6 MODE 4 & 5: OUTDOOR RESET OPERATION: VIEW DISPLAY

From the Home display;

1) Press [ITEM] to view the following parameters:

Display

Parameter

Name

Parameter Description

Parameter

Range

Outdoor

Temperature

Real-time Outdoor Temperature

-60 to 190 o

F

(-51 to 88 o

C)

Boiler Target

Temperature

To provide a target setpoint for the heating system. Setpoint is controlled to the inlet sensor

---, 35 to 266 o

(---, 2 to 130 o

F

C)

System

Temperature

System Temperature of Primary Loop

NOTE: This parameter is only available in Mode 5

14 to 266

(-10 o to 130

F o

C)

Boiler Outlet

Temperature

Real-time Outlet Temperature

14 to 266 o

F

(-10 to 130 o

C)

Boiler Inlet

Temperature

Real-time Inlet Temperature

14 to 266 o

F

(-10 to 130 o

C)

Boiler Delta

T

Real-time temperature difference between the outlet sensor and the inlet sensor.

-99 to 252 o

(-72 to 122 o

F

C)

Modulation

Real-time modulating output percentage

0 to 100%

Total Run

Time Since

Installation

Monitors the amount of operational time since the Micoflame® was installed. The first two digits are the number of thousands of hours and the three digit display shows the number of hundreds of hours.

Press the counter

simultaneously to reset

27

Alternates between 00 and

999

9.7 MODE 4 & 5: OUTDOOR RESET OPERATION: ADJUST DISPLAY

From the Home display;

1) Press simultaneously to view the following parameters:

Display Parameter Name

Mode

Parameter Description

Operating mode for the boiler.

NOTE: A complete description of each mode can be found in section 8.4 Modes of Operation in this manual.

Outdoor Start

Temperature

Parameter

Range

1 to 8

Default = 1

Outdoor starting temperature used in the reset ratio for the heating system. Typically set to the desired building temperature.

35 to 85 o

F

(2 to 29 o

C)

Default = 60 o

F

(21 o

C)

Outdoor Design

Temperature

Boiler Start

Temperature

Boiler Design

Temperature

Differential

Temperature

Pump Delay

Outdoor design temperature used in the reset ratio for the heating system. Set to the coldest annual outdoor temperature in the local area.

-60 to 50 o

F

(-51 to 10 o

C)

Default = -10 o

(-23 o

C)

F

Starting water temperature used in the reset ratio calculation for the heating system. Typically set to the desired building temperature.

Boiler design water temperature used in the reset ratio calculation for the heating system. Set to the boiler water temperature required to heat the building on the coldest annual outdoor temperature.

To provide a modulation rate above and below the Boiler

Target temperature. For example, if the value is 10 o

F and the Boiler

Target is 160 o

F the boiler will begin to modulate at 155 o

F and shut off at 165 o

F.

35 to 150 o

(2 to 66 o

Default = 70 o

(21 o

C)

C)

70 to 230 o

(21 to 110 o

(82 o

C)

F

F

F

C)

Default = 180 o

F

Au, 2 to 42 o

(Au, -16 to 5

F o

C)

Default = 10 o

F

Boiler post pump time after burner has shut off, in seconds.

OFF, 0:20 to

9:55 min, On

Default = 1:00 min

28

Display Parameter Name

Warm Weather

Shutdown

Temperature

Parameter Description

Warm weather shutdown temperature using outdoor reset.

Parameter

Range

35 to 105 o

F,

OFF

(2 to 41 o

C, OFF)

Default = 0:20 min

Temperature Units

Select the desired unit of measurement o

F, o

C

Default = o

F

9.8

MODE 6 & 7: EXTERNAL TARGET TEMPERATURE INPUT OPERATION: VIEW DISPLAY

From the Home display;

1) Press [ITEM] to view the following parameters:

Display

Parameter

Name

Parameter Description

Parameter

Range

Boiler Target

Temperature

To provide a target setpoint for the heating system. Setpoint is controlled to the inlet sensor.

---, 35 to 266 o

F

(---, 2 to 130 o

C)

System

Temperature

Real-time System Temperature

NOTE: This parameter is only available in Mode 7

14 to 266 o

(-10 to 130

F o

C)

Boiler Outlet

Temperature

Real-time Outlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Inlet

Temperature

Real-time Inlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Delta

T

Real-time temperature difference between the outlet sensor and the inlet sensor.

-99 to 252 o

(-72 to 122

F o

C)

29

Display

Parameter

Name

Parameter Description

Parameter

Range

Modulation

Real-time modulating output percentage

0 to 100%

Total Run

Time Since

Installation

Monitors the amount of operational time since the Micoflame® was installed. The first two digits are the number of thousands of hours and the three digit display shows the number of hundreds of hours.

Press the counter

simultaneously to reset

Alternates between 00 and

999

9.9 MODE 6 & 7: EXTERNAL TARGET TEMPERATURE INPUT OPERATION: ADJUST DISPLAY

From the Home display;

1) Press simultaneously to view the following parameters:

Display

Parameter

Name

Parameter Description

Mode

Differential

Temperature

Operating mode for the boiler.

NOTE: A complete description of each mode can be found in section 8.4 Modes of Operation in this manual.

To provide a modulation rate above and below the Boiler

Target temperature. For example, if the value is 10 o

F and the Boiler

Target is 160 o

F the boiler will begin to modulate at 155 o

F and shut off at 165 o

F.

Parameter

Range

1 to 8

Default = 1

Au, 2 to 42 o

(Au, -17 to 6

F o

C)

Default = 10 o

F

Pump Delay

Boiler post pump time after burner has shut off, in seconds.

OFF, 0:20 to

9:55 min, On

Default = 1:00 min

Temperature

Units

Select the desired unit of measurement o

F, o

C

Default = o

F

30

9.10 MODE 8: EXTERNAL DRIVE OPEATION: VIEW DISPLAY

From the Home display;

2) Press [ITEM] to view the following parameters:

Display

Parameter

Name

Parameter Description

Parameter

Range

Boiler Outlet

Temperature

Real-time Outlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Inlet

Temperature

Real-time Inlet Temperature to Boiler

14 to 266

(-10 o to 130

F o

C)

Boiler Delta

T

Real-time temperature difference between the outlet sensor and the inlet sensor.

-99 to 252 o

(-72 to 122

F o

C)

Modulation

Real-time modulating output percentage

0 to 100%

Input

Voltage

[V]

0

0.5

1

1.5

2

2.5

3

Total Run

Time Since

Installation

Monitors the amount of operational time since the Micoflame® was installed. The first two digits are the number of thousands of hours and the three digit display shows the number of hundreds of hours.

Press the counter

simultaneously to reset

Table 10: Input Voltage vs. Modulation Rate

Modulation

[%]

0

0

5.3

10.5

15.8

21.1

26.3

Input

Voltage

[V]

4

5

6

7

8

9

10

Modulation

[%]

36.8

47.4

57.9

68.4

78.9

89.5

100

Alternates between 00 and

999

31

9.11 MODE 8: EXTERNAL DRIVE OPEATION: ADJUST DISPLAY

From the Home display;

1) Press simultaneously to view the following parameters:

Display

Parameter

Name

Parameter Description

Mode

Operating mode for the boiler.

NOTE: A complete description of each mode can be found in section

8.4 Modes of Operation in this manual.

Parameter

Range

1 to 8

Default = 1

Pump Delay

Boiler post pump time after burner has shut off, in seconds.

OFF, 0:20 to 9:55 min, On

Default = 1:00 min

Temperature

Units

Select the desired unit of measurement o

F, o

C

Default = o

F

9.12 ERROR MESSAGES

Error Message Description

The control was unable to read a piece of information its EEPROM memory. The control will stop operation until all settings in the Adjust menu have been checked by the installer.

Outlet Sensor Short Circuit.

If the inlet sensor is operational, the control will operate using the inlet sensor. Otherwise, the control will not operate the burner.

Test the outlet sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

Outlet Sensor Open.

If the inlet sensor is operational, the control will operate using the inlet sensor. Otherwise, the control will not operate the burner.

Test the outlet sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

32

Error Message Description

Inlet Sensor Short Circuit

The boiler will continue operation.

Test the inlet sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

Inlet Sensor Open

The boiler will continue operation

Test the inlet sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

System Sensor Short Circuit

If the outlet sensor is operational, the boiler will operate using the outlet sensor. If the outlet sensor is not available and the inlet sensor is operational, the boiler will operate using the inlet sensor.

Otherwise, the control will not operate the burner.

Test the supply sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

System Sensor Open

If the outlet sensor is operational, the boiler will operate using the outlet sensor. If the outlet sensor is not available and the inlet sensor is operational, the boiler will operate using the inlet sensor.

Otherwise, the control will not operate the burner.

Test the supply sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

Outdoor Sensor Short Circuit

The BTC 1 assumes an outdoor temperature of 32 o

F (0 o

C) and continues operation.

Test the outdoor sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

Outdoor Sensor Open

The BTC 1 assumes an outdoor temperature of 32 o

F (0 o

C) and continues operation.

Test the outdoor sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

DHW Sensor Short Circuit

The control will not operate the burner.

Test the DHW sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

33

Error Message Description

DHW Sensor Open

The control will not operate the burner.

Test the DHW sensor and related wiring. The error message will clear once the error condition is corrected and a button is pressed.

Flame Proof Error

Flame was not proved within 120 seconds of Demand 1

10 OPERATION

The Micoflame® Grande appliance should be installed and started up by factory qualified personnel.

10.1 START-UP

Gas appliances are rated based on sea level operation with no adjustment required at elevations up to 2000 ft. At elevations above

2000 ft the input rating must be reduced by 4% for each additional 1000 ft elevation. Never increase the input of the appliance above that for which it is rated.

Pilot Pressure Setting

The pilot was preset at the factory. The following description is for the benefit of the start-up technician should minor adjustment be required.

The pilot burner is controlled by a separate pilot valve. Pilot pressure setting is as shown in Table

9. A view port is provided on the appliance’s return end to view the pilot and the main burners. If adjustment is necessary the following steps must be followed: Remove the lower front jacket panel; Remove the ⅛ ” plug from the elbow pressure tap and connect a manometer;

Remove regulator adjustment screw cap from the pilot valve; Rotate the regulator adjustment screw clockwise to increase the manifold pressure or counterclockwise to decrease it;

Once satisfied replace the regulator adjustment screw cap and the elbow pressure tap plug.

Table 11 – Gas pressures at inlet to pilot

Minimum (inches W.C.)

Maximum (inches W.C.)

PROPANE NATURAL

GAS

3.9

9.3

1.3

3.5

34

Pilot Flame Rectification Setting

The pilot flame rectification was preset at the factory. The following description is for the benefit of the start-up technician should minor adjustment be required. Set pilot to obtain best

µA reading from flame rectification. Minimum average signal of 1.5 µA is required. If required, test the signal using a DC µA meter following this procedure for Honeywell S8600 ignition module: Disconnect ground wire at appliance transformer; Disconnect the 24V power and ground wires from all S8600 ignition modules not being tested; Set meter to µA DC: Connect one of the meter’s terminals to the burner ground terminal on the S8600 and the other terminal to the burner ground wire; Pilot running without main burner will generate 1.5 µA average for best operation. With main burner running, the signal will be in a range of 4.0 to 7.0

µA.

Gas Pressure Setting

The adjustable ratio gas valve pressure regulator was preset at the factory. The following description is for the benefit of the start-up technician should minor adjustment be required.

Optimum results are obtained when the CO

2 levels shown in Table 10 are obtained. After light off allow the burner to reach full fire and then adjust combustion using the high fire adjustment screw. Bring the appliance to low fire and set the

CO

2

using the low fire adjustment. If adjustment is necessary the following steps must be followed (please refer to Figure 27): Remove the lower front jacket panel; Remove the ⅛ ” plug from the elbow pressure tap and connect a manometer.

Air Flow Setting

The fan inlet air shutter has been preset at the factory. The following description is for the benefit of the start-up technician should minor adjustment be required.

Optimum results are obtained when the appliance is operated with air box pressure as set in Table 12. If adjustment is necessary the following steps must be followed: Remove the lower front jacket panel; connect a manometer to the air pressure tap provided on the combustion chamber door; with the fan operating the air pressure should be set per

Table 12 by adjusting the air inlet shutter on the fan inlet; To adjust the air shutter, first undo the securing nut and rotate the bolt so the shutter will open or close as required

Table 12 – Combustion Values

Natural Gas Propane

Non-

Condensing

Condensing

Max.

Fire

Min.

Fire

Max.

Fire

Min.

Fire

CO

2

7.5% -

8.5%

7.0% -

7.5%

8.5% -

9.0%

7.5% -

8.0%

CO

< 50

PPM

< 50

PPM

< 50

PPM

< 50

PPM

CO

2

9.0% -

10.0%

8.5% -

9.0%

10.0% -

10.5%

9.0% -

9.5%

Once satisfied tighten the nut on the fan’s shutter bolt making sure it is secured.

CO

< 50

PPM

< 50

PPM

< 50

PPM

< 50

PPM

Pressure Switch Settings

The air flow proving switches have been preset at the factory as per Table 12. The following description is for the benefit of the start-up technician should minor adjustment be required.

One pressure switch is provided per burner. If adjustment is necessary the following steps must be followed: Remove the lower front jacket panel; insert allen key into the switch located on the combustion chamber door; with the fan running the switch should be set per Table 11 by rotating the allen key counter-clockwise to make contact.

Ignition System Safety Shut-Off Device

After initial fill while the main burner is firing, shut off gas to the pilot and clock the time taken for the main gas valve to shut down. If the safety control is functioning properly, power to the gas valve will be shut off within 4 seconds of the pilot gas being shut off. If shut down takes longer, ignition control or gas valve may be defective.

35

If shutdown does not occur it is possible that the main flow is generating a signal at the pilot in which case the pilot shall not recycle with the pilot gas off.

Appliances Start Up

With the appliance off, open makeup water valve and allow system to fill slowly. With all air vents open, run system circulating pump for a minimum of 30 minutes with the appliance off.

Open all strainers in the circulating system and check for debris. Check liquid level in expansion tank. With system full of water at 15 PSIG cold, the level of water in the expansion tank should not exceed ¼ of the total volume with the balance filled with air. Start up appliance following instructions provided. Operate entire system including pumps and radiation for at least 1 hour. Check water level in expansion tank. If level exceeds ½ of tank volume, air is still trapped in system. Shut down appliance and continue to run pumps. Within 3 days of start up, recheck all air vents and expansion tank as described above.

10.2 MODULATION SEQUENCE

The Modulating Micoflame® Grande is designed with intermittent pilots on each burner. Before the appliance can light off, all pilots must be lit.

Pre-purge

BTC 1 Staging control activates the pre-purge cycle for 20 seconds before trial for ignition.

Ignition Trial

On proof of air flow, the air proving switch closes and energizes the ignition module. The module first initiates a self check and then starts the pilot ignition sequence. The modulating sequence begins with the modulating fan ramping down to ignition speed. The safety shutoff valve opens, which allows gas to flow to the pilot burner. At the same time, the electronic spark generator in the module produces 10,000 Volt spark pulse output. The voltage generates a spark at the igniter that ignites the pilot. If the pilot does not light, or the pilot flame current is not at least, on average, 1.5 µ A and steady, the module will not energize the combination valve and the main burner will not light. The ignition module provides 100% gas shutoff, followed by retry for ignition. If required (e.g. CSD-1) a module with lockout feature can be provided.

Main Burner

When all pilot flames are established, a flame rectification circuit is completed between the sensor and the burner ground. The flame sensing circuit in the ignition module detects the flame current, shuts off the spark generator and energizes the combination valve operator. Once all pilots are lit the main gas valve opens and matches gas input to the available air. As the fans ramp up gas input is adjusted accordingly.

On the lock out ignition module, the flame current also holds the safety lockout timer in the reset operating condition. When the call for heat ends, both valve operators are de-energized, and both valves in the gas control close.

Normal Operation

Modulation is controlled from the Boiler

Temperature Controller. The modulating fans are equipped with electrically commutated DC motors which respond to a PWM signal.

The control provided with the Modulating

Micoflame® allows remote control with an analog signal of 4-20mA or 2-10VDC.

Demand Satisfied

The BTC 1 senses that the boiler target temperature was reached and de-energizes the stage contact.

Control Alarms

High limit or low water flow will de-energize all gas valves, and the blower. Condition indicators are visible on the control panel. Each burner/blower set is provided with its own air pressure switch. If a low air pressure condition is present, power will not be supplied to the ignition module. The blower will remain on and the air indicator will remain on for as long as there is a call for heat.

11 PILOT AND MAIN BURNER

FLAMES

11.1 MAIN BURNER

The main burner, Figure 25 should display the following characteristics;

Acceptable CO and CO

2

levels for complete combustion

Light off smoothly

Reasonably quiet while running

Stable flame with minimum of lifting

Blue flame with natural gas, yellow tips with propane gas

Figure 26 - Burner

If burner characteristics do not match the above, check for proper air box pressure. Look for accumulation of lint and other foreign material at fan air inlets.

36

Table 13 –Air Box Settings at Full Fire

MODEL

2000

2500

3000

3500

4000

MODEL

2000

2500

3000

3500

4000

AIR BOX “ W.C. (with burner firing)

Burner

#1

1.9

(2.2)

1.5

(1.8)

1.9

(2.2)

Burner

#2

1.9

(2.2)

1.5

(1.8)

1.9

(2.2)

Burner

#3

1.5

(1.8)

1.9

(2.2)

Burner

#4

1.6

(1.9)

1.9

(2.2)

1.6

(1.9)

1.9

(2.2)

1.6

(1.9)

1.9

(2.2)

1.6

(1.9)

1.9

(2.2)

FLUE SWITCH RECYCLE POINT “

W.C

Burner

#1

1.5

(1.9)

Burner

#2

1.5

(1.9)

Burner

#3

Burner

#4

1.1

(1.5)

1.5

(1.9)

1.2

(1.6)

1.5

(1.9)

1.1

(1.5)

1.5

(1.9)

1.2

(1.6)

1.5

(1.9)

1.1

(1.5)

1.5

(1.9)

1.2

(1.6)

1.5

(1.9)

1.2

(1.6)

1.5

(1.9)

Depending on field conditions air box pressures will have to be adjusted accordingly. Always set the appliance for a CO

2

level in the range listed in Table 14.

Non-

Condensing

Condensing

Max.

Fire

Min.

Fire

Max.

Fire

Min.

Fire

Table 14: Combustion Values

Natural Gas Propane

CO

2

7.5% -

8.5%

7.0% -

7.5%

8.5% -

9.0%

7.5% -

8.0%

CO

< 50

PPM

< 50

PPM

< 50

PPM

< 50

PPM

CO

2

9.0% -

10.0%

8.5% -

9.0%

10.0% -

10.5%

9.0% -

9.5%

CO

< 50

PPM

< 50

PPM

< 50

PPM

< 50

PPM

37

A qualified service technician should follow this procedure when burner needs cleaning.

1. Shut off power and close main manual gas valve.

Allow burner to cool before removal.

2. Remove access cover screws.

Disconnect pilot gas at bulkhead fitting.

Disconnect ground wire and ignition wire.

Remove nuts holding down burner.

Gently pull down and forward to disengage burner.

Remove burner being careful to not damage the igniter or ground electrodes.

Inspect burner box donut gasket located between the mixing tube and the inlet to the burner. If damaged, replace burner box donut gasket with part number: 109889.

3. Thoroughly clean burner using low pressure water or air. Never wipe or brush the surface of the burner nor use high pressure water or air. Check all ports and air channels for blockage.

4. Reinstall the burner being careful to fully engage the back of the burner box into the retaining slot in the combustion chamber base.

5. Check to ensure that burner box is properly sealed against the donut gasket. Failure to properly locate the burner will result in erratic flame operation with the possibility of delayed ignition on light off.

6. Restore electrical power and gas supply to the appliance.

Following the lighting instructions put the appliance back into operation

Check for gas leaks and proper appliance and vent operation.

11.2 REMOVAL OF COMBUSTION

CHAMBER LINING

The combustion chamber insulation in this appliance contains ceramic fiber material.

Ceramic fibers can be converted to cristobalite in very high temperature applications. The

International Agency for Research on Cancer

(IARC) has concluded, “Crystalline silica in this form of quartz of cristobalite from occupational sources is carcinogenic to humans (Group 1)”.

Normal operating temperatures in this appliance are below the level to convert ceramic fibers to cristobalite. Abnormal operating conditions would have to be created to convert the ceramic fibers in this appliance to cristobalite.

The ceramic fiber material used in this appliance is an irritant; when handling or replacing the ceramic materials it is advisable that the installer follow these safety guidelines.

Avoid breathing dust and contact with skin and eyes.

o

Use NIOSH certified dust respirator (N95). This type of respirator is based on the OSHA requirements for cristobalite at the time this documentation was written. Other types of respirators may be needed depending on the job site conditions. Current NIOSH recommendations can be found on the NIOSH website at http://www.cdc.gov/niosh/homep age.html

. NIOSH approved respirators, manufacturers, and phone numbers are also listed on this website.

o

Wear long-sleeved, loose fitting clothing, gloves, and eye protection

Apply enough water to the combustion chamber lining to prevent airborne dust.

Remove the combustion chamber lining from the water heater and place it in a plastic bag for disposal.

Wash potentially contaminated clothes separately from other clothing. Rinse clothes washer thoroughly.

NIOSH stated First Aid

Eye: Irrigate immediately

Breathing: Fresh air

11.3 PILOT BURNER

Turn the pilot firing valve to off position and allow the appliance to try for ignition. Observe the spark making sure that it is strong and continuous.

If the spark is not acceptable the igniter will have to be adjusted. This can be readily accomplished after removing the main burner.

The spark gap should measure between 1/8” to

3/16”. Make sure that the electrode does not appear overheated or fouled with carbon. It may be necessary to clean the ignition electrode using steel wool. Once the pilot appears to be properly set, reinstall it into the appliance making sure to properly tighten the pilot line connection.

If the pilot is removed from the main burner in the course of servicing the appliance, it is important to replace all gaskets and seals.

These seals are intended to prevent the bypass of air around the pilot.

Figure 27 – Pilot and Burner Box

Once the spark is satisfactory, open the pilot gas and allow the pilot burner to light. Once air has been purged from the pilot line, the pilot flame should appear almost instantly at the initiation of spark. Cycle the pilot several times to confirm reliability. A properly set pilot will appear blue and will engulf the igniter and ground electrode.

Open the firing valve and allow the main burner to light. The pilot must not extinguish. After running for 15 minutes, cycle the appliance to ensure that the pilot remains stable.

38

12 OPERATION AND

SERVICE

12.1 PRE-START CHECKLIST

Before operating the boiler, the entire system must be filled with water, purged of air and checked for leaks. Do not use Stop leak or other boiler compounds. The gas piping must also be leak tested.

Any safety devices including low water cutoff, flow switch and high limit used in with this boiler must receive periodic inspection (every six months) to assure proper operation. A low water cutoff of the float type should be flushed every six months. All relief valves should be inspected and manually operated every six months.

For your safety follow the lighting and operating instructions below and on the boiler.

To turn on main burner, slowly open firing valve after pilot is established.

Set primary system controller to desired temperature.

To turn off boiler close main manual gas valve, close pilot manual valve and turn off electric power to system.

12.2 START-UP

Gas appliances are rated based on sea level operation with no adjustment required at elevations up to 2000 ft. At elevations above

2000 ft the input rating must be reduced by 4% for each additional 1000 ft elevation. Never increase the input of the appliance above that for which it is rated.

Pilot Pressure Setting

The pilot was preset at the factory. The following description is for the benefit of the start-up technician should minor adjustment be required.

The pilot burner is controlled by a separate pilot valve. Pilot pressure setting is as shown in Table

15. A view port is provided on the appliance’s return end to view the pilot and the main burners. If adjustment is necessary the following steps must be followed: Remove the lower front jacket panel; Remove the ⅛ ” plug from the elbow pressure tap and connect a manometer;

Remove regulator adjustment screw cap from the pilot valve; Rotate the regulator adjustment screw clockwise to increase the manifold pressure or counterclockwise to decrease it;

39

Once satisfied replace the regulator adjustment screw cap and the elbow pressure tap plug.

Table 15 – Gas pressures at inlet to pilot

Minimum (inches W.C.)

Maximum (inches W.C.)

PROPANE

3.9

9.3

NATURAL

GAS

1.3

3.5

Figure 28: Micoflame® Grande 2010 – 4000

Gas Valve

To adjust the high fire setting

Set the Target Temperature to 190 o

F using the

BTC 1 Controller.

Locate screw (1) labeled as <<P

GAS

/P

AIR

>> and make adjustments as necessary to satisfy the combustion values in Table 14. The markings on the setting screws are labeled as “+” and “-“, for more and less gas, respectively. Turn the screw

1/4 turn in either way for each adjustment to keep track of the adjustments. After adjusting the screw wait a moment for the combustion levels to stabilize before attempting to make any further adjustments. Continue this procedure until combustion levels are satisfied.

Reset the Target Temperature to normal operating conditions on the BTC 1 Controller.

To adjust the low fire setting

Observe the Boiler Inlet Temperature. Set the

Boiler Target temperature so that it is 10 o

F above the Boiler Inlet Temperature. The boiler will begin to modulate to low-fire as setpoint is being reached. The actual modulation rate can be shown on the screen as Modulation, this will be shown as a percentage.

Locate screw (2) labeled as and make adjustments as necessary to satisfy the combustion values in Table 16. The markings on the setting screws are labeled as “+” and “-“, for more and less gas, respectively. Turn the screw

1/4 turn in either way for each adjustment to keep track of the adjustments. After adjusting the screw wait a moment for the combustion levels to stabilize before attempting to make any further adjustments. Continue this procedure until combustion levels are satisfied.

Reset the Target Temperature to normal operating conditions on the BTC 1 Controller.

Table 16 – Combustion Values

Non-

Condensing

Condensing

Max.

Fire

Min.

Fire

Max.

Fire

Min.

Fire

Natural Gas

CO

2

7.5% -

8.5%

7.0% -

7.5%

8.5% -

9.0%

7.5% -

8.0%

CO

< 50

PPM

< 50

PPM

< 50

PPM

< 50

PPM

Propane

CO

2

9.0% -

10.0%

8.5% -

9.0%

10.0% -

10.5%

9.0% -

9.5%

CO

< 50

PPM

< 50

PPM

< 50

PPM

< 50

PPM

Pilot Flame Rectification Setting

The pilot flame rectification was preset at the factory. The following description is for the benefit of the start-up technician should minor adjustment be required. Set pilot to obtain best

µA reading from flame rectification. Minimum average signal of 1.5 µA is required. If required, test the signal using a DC µA meter following this procedure for Honeywell S8600 ignition module: Disconnect ground wire at appliance transformer; Disconnect the 24V power and ground wires from all S8600 ignition modules not being tested; Set meter to µA DC: Connect one of the meter’s terminals to the burner ground terminal on the S8600 and the other terminal to the burner ground wire; Pilot running without main burner will generate 1.5 µA average for best operation. With main burner running, the signal will be in a range of 4.0 to 7.0

µA.

The normally-closed blocked flue switch has been preset at the factory. In cases where the heater loses the flame signal as it approaches high fire adjustment to the blocked flue switch may be necessary.

40

The following description is for the benefit of the start-up technician should minor adjustment be required. a. Remove the lower front jacket panel b. Reduce sensitivity of blocked flue switch by turning the flat screw ¼ turn clockwise c. Observe the operation of the burner as it approaches high fire, if the heater continues to operate at high fire the switch has been correctly set. If not, repeat steps 2 and 3. d. Re-install lower front jacket panel

Differential Air Proving Switch

A differential low fire air proving switch is provided on every burner to prevent burner light off under block flue or blocked inlet condition.

The normally-open differential air switches have been preset at the factory. The following description is for the benefit of the start-up technician should minor adjustment be required.

1) Remove the lower front jacket panel

2) Insert allen key into the switch located on the combustion chamber door

3) Reduce sensitivity of differential air switch by turning the hex screw ¼ turn counter-clockwise.

4) Re-install lower front jacket panel

Ignition System Safety Shut-Off Device

After initial fill while the main burner is firing, shut off gas to the pilot and clock the time taken for the main gas valve to shut down. If the safety control is functioning properly, power to the gas valve will be shut off within 4 seconds of the pilot gas being shut off. If shut down takes longer, ignition control or gas valve may be defective. If shutdown does not occur it is possible that the main gas flow is generating a signal at the pilot in which case the pilot shall not recycle with the pilot gas off.

Appliances Start Up

With the appliance off, open makeup water valve and allow system to fill slowly. With all air vents open, run system circulating pump for a minimum of 30 minutes with the appliance off.

Open all strainers in the circulating system and check for debris. Check liquid level in expansion tank. With system full of water at 15 PSIG cold,

the level of water in the expansion tank should not exceed ¼ of the total volume with the balance filled with air. Start up appliance following instructions provided. Operate entire system including pumps and radiation for at least 1 hour. Check water level in expansion tank. If level exceeds ½ of tank volume, air is still trapped in system. Shut down appliance and continue to run pumps. Within 3 days of start up, recheck all air vents and expansion tank as described above.

12.3 SERVICE

Disconnect main power and turn off gas supply before servicing unit.

To remove and clean the burner, follow the detailed procedure in section 16 of this manual

After the first season of operation inspect the heat exchanger and venting. Follow the detailed instructions in section 6 of this manual.

CAUTION: Label all wires prior to disconnection when servicing controls. Wiring errors can cause improper and dangerous operation. Verify proper operation after servicing.

Any audible sounds in the equipment, like pinging, crackling or hissing are indications of scaling or lack of sufficient water flow. Under these conditions the boiler must be shut down immediately and the heat exchanger checked for damage. If the exchanger is damaged from scaling, it is not covered by warranty.

Should your equipment be subjected to fire, flood or some other unusual condition, turn off all gas and electrical supply. If you are unable to turn off the gas , call your gas company or gas supplier at once. Do not put the unit back in operation until it has been checked by a qualified agency to ensure that all controls are functioning properly.

Units that are not operated for a period of 60 days or more are considered seasonal operations. It is recommended that before returning one of these units to service, the proper operation of all controls be checked by a qualified service technician.

41

13 LIGHTING INSTRUCTIONS

1. Turn off electric power to appliance.

2. Close main manual valve and main firing valve and wait 5 minutes.

3. Set primary system controller to desired temperature.

4. Open pilot valve.

5. Turn on electric power to appliance. The electrode at the pilot should begin to spark after pre-purge is complete. The pilot valve will open to permit gas flow to the pilot.

6. There is a 15 second trial for ignition, which is enough time to light the pilot if air is not present in the pilot line. If pilot fails to light and you suspect air in the line, close the main manual valve and repeat lighting steps 1 thru 5.

7. Once the pilot lights, it should envelope the ignition rod and ground electrode.

The pilot can be adjusted by removing the pilot regulator cover and turning the adjustment screw counter-clockwise to increase it or clockwise to decrease it.

8. Open the main manual and main firing valves to allow gas to reach the main burner. If the main burner fails to ignite, turn the firing valve off and check to see that the pilot is burning. If not, repeat lighting procedure steps 1 thru 7.

TO TURN OFF APPLIANCE: Close main manual valve and main firing valve and turn off electric power to system.

14 TROUBLE SHOOTING GUIDE

SYMPTOM

1. Power light is not lit when switch is flipped to

“ON”

2. Water flow light remains off.

3. Pilot sparks but does not light

4. Pilot lights momentarily, goes out and then sparks again repeatedly

SOLUTION

Check wiring to switch.

Activate push button for latch relay if provided.

Check circuit breaker.

Check fuse.

Verify that pump is running.

Check wiring to flow switch.

Verify that main manual valve is open.

Follow lighting instructions to bleed air out of pilot line.

Remove main burner and inspect for moisture or dirt in pilot or in pilot line.

Verify that pilot is sealed to main burner base.

Verify that gas connections are tight.

Observe pilot for proper flame. Adjust if necessary.

Check pilot flame signal. Properly set pilot to generate 1.5 µA. D.C. on average.

Remove main burner and ensure that igniter and ground electrodes are positioned properly. Clean with steel wool if necessary.

Verify that back of burner box is fully engaged into the retaining slot in the combustion chamber base.

6. Main burner lights but cycles off after a few minutes

7. Appliance starts to whine as the temperature rise increases. position.

Check wiring to valve from ignition control.

Verify that high limit is set high enough to prevent short cycling.

Check pilot flame signal (µA).

Adjust pilot pressure for steady flame

Remove main burner. Check position of igniter and ground electrode. Clean with steel wool if necessary.

Verify that all air is bled from system.

Verify that the static pressure in cold system is at least 15 psig at the highest point in the system.

Check temperature rise across appliance to ensure adequate water flow.

If necessary, increase static water pressure and decrease gas pressure.

42

15 TYPICAL GAS TRAIN

Figure 29 – Gas Train

43

16 ELECTRICAL DIAGRAMS

16.1 MF 3500 – 4000 INTERNAL WIRING DIAGRAM

44

17 EXPLODED VIEW & PARTS LIST

MODULATING MICOFLAME® GRANDE

45

MODULATING MICOFLAME® GRANDE OUTDOOR AND/OR CONDENSING

46

MICOFLAME® GRANDE REPLACEMENT PARTS LIST

Ref

#

Part Name

1

2

Combustion Chamber

End Panel - Left

Combustion Chamber

End Panel - Right

3

4

Combustion Chamber

Rear Panel

Combustion Chamber

Support - Left

5

6

Combustion Chamber

Support - Right

Combustion Chamber

Base

7

13

Combustion Chamber

Upper Front

8 Flue Collector Top

9

Flue Collector End

Bracket

10 Base Panel

11

12

Outer Jacket Top

Cover

Outer Jacket Back

Panel

Outer Jacket Front

Lower Panel

14

15

Outer Jacket Front

Upper Panel

Base Support

Weldment

16 Base Panel Lips

17

18

Inlet Outlet Side

Access Panel

Return Side Access

Panel

2010

14-4202-20

14-4205-20

14-4206-20

14-4207-20

14-4209-20

14-4210-20

14-4211-20

14-4212-20

14-4213-20

16-4214-20

14-4215-20

2500

14-4202-30

14-4205-30

14-4206-30

14-4207-30

14-4209-30

14-4210-30

14-4211-30

14-4212-30

14-4213-30

16-4214-30

14-4215-30

Model Number

3000

14-4200

14-4201

14-4202-30

14-4203

14-4204

14-4205-30

14-4206-30

14-4207-30

14-4208

14-4209-30

14-4210-30

14-4211-30

14-4212-30

14-4213-30

16-4214-30

14-4215-30

14-4216

14-4217

19

Combustion Chamber

Centre Divider

N/A N/A N/A

3500

14-4202-40

14-4205-40

14-4206-40

14-4207-40

14-4209-40

14-4210-40

14-4211-40

14-4212-40

14-4213-40

16-4214-40

14-4215-40

14-4218

14-4219-30 14-4219-40 20 Flue Collector Outlet

21

22

23

Outer Jacket Side

Panel - Right

Outer Jacket Side

Panel - Left

Fan Mounting

Support - Right

14-4219-20 14-4219-30

14-4231

14-4232

14-4233

47

4000

14-4202-40

14-4205-40

14-4206-40

14-4207-40

14-4209-40

14-4210-40

14-4211-40

14-4212-40

14-4213-40

16-4214-40

14-4215-40

14-4218

14-4219-40

Ref

#

Part Name

24 Burner Door Stop

25

Heat Exchanger

Header Stop Bar

26

Fan Mounting

Support - Left

27 Burner Door

28 V Baffles

29

HX Front and Back

Baffles

30

31

32

Outer Jacket Sight

Glass Frame

Outer Jacket Door

Jam

Heat Exchanger

Support Weldment

33

34

35

37

Inner Jacket Sight

Glass Frame

Outer Jacket Top

Panel Support

Control Panel

Assembly

Three Tiles Burner

Box Assembly

38 Economizer Cover*

39

Economizer

Assembly*

40 Front Refractory

41 Rear Refractory

42 Inlet Outlet Header

43 Gas Train

44

Common End

Refractory

45 Gas Valve Body

46 Fan

47 Return Header

48

Primary Heat

Exchanger

49 Economizer

50

Control Panel

Outdoor Cover**

51

52

Control Panel

Outdoor Cover**

Inlet Outlet Header

Outdoor Cover**

2010

14-4241-20

14-4242-20

N/A

14-4146

14-4148-03

17-0084-01

17-0085-01

-

15-0195-01

CAM-2000

2500

14-4241-30

14-4242-30

N/A

14-4265-01

14-4266-01

17-0084-02

17-0085-02

-

15-0195-02

CAM-4000

14-4255

14-4160

14-4225

14-4265-01

14-4266-01

17-0084-02

17-0085-02

13-0040

-

17-0083

VGG10.504U

150232-07

13-0041

15-0195-02

CAM-4000

14-4245

Model Number

3000

14-4234

14-4238

14-4239

14-4240

14-4241-30

14-4242-30

14-4151

N/A

14-4253

3500

14-4241-40

14-4242-40

14-4252

14-4154

14-4265-01

14-4266-01

17-0084-03

17-0085-03

-

15-0195-03

CAM-4000

14-4246

14-4247

4000

14-4241-40

14-4242-40

14-4252

14-4265-01

14-4266-01

17-0084-03

17-0085-03

-

15-0195-03

CAM-4000

48

Ref

#

Part Name

2010

53 Gas Valve Actuator

54

55

56

57

MicoGrande

Modulating harness-2 burner

MicoGrande

Modulating harness-3 burner

MicoGrande

Modulating harness -

4 burner

MicoGrande

Modulating harness-

Water end harness, right

MicoGrande

Modulating harness-

Water end harness 2burner, left

MicoGrande

Modulating harness-

Water end harness 3-

4 burner, left

MicoGrande

Modulating harness-

Panel main (110V)

MicoGrande

Modulating Power

Harness

58 Air Inlet Filter

59 Air Switch

60

Igntion Module –

Continuous Retry

61

Ignition Module –

Single Try

62

63

Pilot Valve/

Combination Valve

Burner Box Donut

Gasket

77-0024

N/A

77-0028

N/A

* Condensing Models Only

** Outdoor Models Only

Not Shown in Exploded View

12”

2500

N/A

77-0025

Model Number

3000

SKP75.013U1

N/A

3500

77-0027

77-0030

N/A

77-0029

77-0031

14”

IS20105-5762A

S8610M3017

S8600H3010

CV100B6N-22-0001

109889

N/A

77-0026

16”

4000

49

WARRANTY

GENERAL

Camus® Hydronics Limited (“Camus®”), extends the following LIMITED WARRANTY to the owner of this appliance, provided that the product has been installed and operated in accordance with the Installation Manual provided with the equipment. Camus® will furnish a replacement for, or at Camus® option repair, any part that within the period specified below, shall fail in normal use and service at its original installation location due to any defect in workmanship, material or design. The repaired or replacement part will be warranted for only the unexpired portion of the original warranty. This warranty does not cover failures or malfunctions resulting from: (1) Failure to properly install, operate or maintain the equipment in accordance with Camus®’ manual; (2) Abuse, alteration, accident, fire, flood, foundation problems and the like; (3) Sediment or lime buildup, freezing, or other conditions causing inadequate water circulation; (4) Pitting and erosion caused by high water velocity; (5) Failure of connected systems devices, such as pump or controller; (6) Use of non-factory authorized accessories or other components in conjunction with the system; (7) failing to eliminate air from, or replenish water in, the connected water system; (8)

Chemical contamination of combustion air or use of chemical additives to water.

HEAT EXCHANGER

If within TEN years after initial installation of the appliance, a heat exchanger, shall prove upon examination by

Camus® to be defective in material or workmanship, Camus® will exchange or repair such part or portion on the following pro rated limited warranty.

Years In

Service

Micoflame®

Heating

Micoflame®

DHW

MF Cond.

Secondary HTX

Years In

Service

Micoflame®

Heating

Micoflame®

DHW

MF Cond.

Secondary HTX

1 100% 100% 100% 6 40%

N/A N/A

2

3

100%

100%

100%

100%

100%

100%

7

8

35%

30%

N/A

N/A

N/A

N/A

4

5

100%

100%

100%

100%

100%

100%

9

10

25%

20%

N/A

N/A

N/A

N/A

Heat Exchanger shall be warranted for (20) years appliance having declared FOB from Camus® against “Thermal

Shock” (excluded, however, if caused by appliance operation at large changes exceeding 150 ºF between the water temperature at intake and appliance temperature, or operating at appliance temperatures exceeding 230 ºF).

BURNER

If within FIVE years of the appliance having declared FOB from Camus® a burner shall prove upon examination by

Camus® to be defective in material or workmanship, Camus® will exchange or repair such part or portion.

ANY OTHER PART

If any other part fails within one (1) year after installation, or eighteen (18) months of the appliance having declared

FOB from Camus®, whichever comes first Camus® will furnish a replacement or repair that part. Replacement parts will be shipped f.o.b. our factory.

HOW TO MAKE A CLAIM

Any claim under this warranty shall be made directly to Camus® Hydronics Limited Canadian Head Office

SERVICE LABOR RESPONSIBILITY

Camus® shall not be responsible for any labour expenses to service, repair or replace the components supplied.

Such costs are the responsibility of the owner.

DISCLAIMERS

Camus® shall not be responsible for any water damage. Provisions should be made that in the event of a water/appliance or fitting leak, the resulting flow of water will not cause damage to its surroundings.

Name of Owner

Address

Model No.

Date of Installation:

Name of Dealer

Address

Serial No.

Date of Initial Operation:

6226 Netherhart Road, Mississauga, Ontario, L5T 1B7, CANADA

50

51

CAMUS® Hydronics is a manufacturer of replacement parts for most copper finned water heaters and heating boilers as well

as a

supplier of specialty

HVAC products. Our service line is open 24

hours, 7 days a week!

The CAMUS®

CERTIFIED! assures

Seal you that

Reliability, Efficiency &

serviceability are built

into every single unit!

For more

information

on our innovative products from CAMUS®

Hydronics Limited, call

905-696-7800 today.

CAMUS® HYDRONICS LTD.

6226 Netherhart Road, Mississauga, Ontario L5T 1B7

TEL: 905·696·7800 FAX: 905·696·8801

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Key Features

  • Modulating gas burner
  • Multiple venting options
  • Easy operation and maintenance
  • High efficiency
  • Safety controls
  • Condensing models available
  • Outdoor installation capability
  • Optional freeze protection

Frequently Answers and Questions

How do I connect the gas supply to the boiler?
Follow the instructions in the "Normal Gas Supply" section of the manual. Be sure to use the correct pipe size and install a manual shut-off valve near the boiler.
What are the venting options for this boiler?
The Micoflame Grande offers three venting options: outdoor venting, standard venting (into a common chimney), and sidewall/vertical venting. Choose the option that best suits your installation needs.
How do I protect the boiler from freezing?
For installations where freezing is a risk, you can use a mixture of 50% water and 50% propylene glycol. This mixture will protect the boiler down to approximately -35°F (-37°C).
What are the modes of operation for the boiler?
This boiler offers multiple modes of operation, including setpoint operation, dedicated domestic hot water operation, outdoor reset operation, and external target temperature input operation. Consult the manual for a detailed explanation of each mode.

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