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Tumo-Int 3000W 5 Blades Wind Turbine User Manual
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Tumo-Int 3000W 5 Blades Wind Turbine is a powerful and efficient wind energy system designed for a variety of applications, from home power supply to off-grid systems. It features a robust design with high-quality aluminum alloy construction and durable blades, making it suitable for various climates. With a low start-up wind speed and high coefficient of productivity, you can experience the benefits of clean, renewable energy.
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Tumo-Int 3000 Watts 5 Blades Wind Turbine Generator Kit (HYE MODEL) USER’S MANUAL Model Installation Debug and Test Maintenance Trouble Shooting Packing, Transportation and Storage Add: B220, Wansheng Square, Chengjiao, Conghua,Guangzhou, China. 510900 Tel: +86 (20) 28148798 Fax: +86 (20) 37503130 Mobile: +86 13902383429 Email: [email protected] Website: www.tumo-int.com MADE IN CHINA Tumo Int Corp. Ltd All Rights Reserved THANK YOU FOR YOUR PURCHASE OF TUMO-INT WIND TURBINE GENERATOR KIT. BEFORE ASSEMBLY, PLEASE CAREFULLY READ THE OWNER'S MANUAL FOR SAFETY USE AND OUTSTANDING PERFORMANCE. ENJOY THE CONVENIENCE WHICH TUMO-INT WIND TURBINE GENERATOR KIT BRINGS YOU! THE OWNER'S MANUAL ISSUED ON JULY 2011. PLEASE UNDERSTAND IN CASE OF ANY PRODUCT IMPROVEMENT OCCUR, IT WILL BE UPDATED IN APPENDIX. 1 Preface Dear Tumo-Int wind turbine owner: Thank you for your purchase of Tumo-Int small wind turbine! You have purchased the most advanced battery charging wind turbine in the world! We believe you will find it easy to install your Tumo-Int wind turbine, moreover, we are confident you will experience years of dependable service from it. Please make sure you’ve carefully read the manual before any assembly, installation or operation of your Tumo-Int wind turbine, it will help you to better improve Tumo-Int wind turbine using experience. If failure of following this Tumo-Int wind turbine manual’s instructions and requirements, Tumo Int Corp. Ltd will not be liable for any property loss. This manual has been strictly reviewed to ensure you properly install and use Tumo-Int wind turbine. Tumo Int Corp. Ltd is committed to continuously improve Tumo-Int wind turbine features and service quality, to reserves the right to change any products and any other information in the manual without prior notice. This manual can help you to better understand and properly use Tumo-Int small wind turbine, however, the content of hardware configuration is not included in the manual. Regarding to whole system configuration, please refer to the relevant contract (if any) or distributor. Pictures in the manual are for reference only, if there is discrepancy between picture and product, please prevail in kind. If you find actual situation of Tumo-Int wind turbine is inconsistent with the description in the manual, or you would like to know the latest information, or you have any questions or comments, please call during working hours (Monday- Saturday 9:00a.m. to 5:00 p.m. Beijing Standard Time). Our number is 0086-13902383429. Or visit our shop in Amazon.com to leave messages. Sincerely, Tumo Int Corp. Ltd 2 Safety Instructions 1. For your safety, please read these instructions carefully before installation or operation. 2. Important: Please comply with the following instructions before using your Tumo-Int wind turbine. 2.1 please read these instructions carefully before use. 2.2 Safety instructions before installation: 2.2.1 Install Tumo-Int wind turbine on sunny day. 2.2.2 Do not install Tumo-Int wind turbine during dusty day with more than 10 m/s wind speed. 2.2.3 Wear wet gloves or clothes are prohibited. 2.2.4 Install and maintain Tumo-Int wind turbine under professionals guidance, or contact distributor. 2.2.5 Do not use too thin or poor quality cables, use original cables as far as possible in order to avoid leakage or fires and line losses. 2.2.6 Non-professionals do not open controller and inverter casing. 2.2.7 Install grounding device in accordance with application standard and installation instructions. 2.2.8 Battery may be sparks flying while wiring, make sure that no inflammables the work environment nearby. 2.2.9 Do not place the controller, inverter and battery in damp, rain, vibration, corrosion and strong electromagnetic interference environment, the places in direct sunlight, near heater or other heat sources are not allowed, either. 2.3 Selection and installation requirements of controller, battery: 2.3.1 Controller specification should be matched with voltage, power and current of the battery, solar panel, wind turbine and load. 2.3.2 Controller and battery should be put in a power housing cabinet, and the housing is located in ventilated place where people are not easy to touch. 2.3.3 Controller and battery must be installed in accordance with corresponding electric equipment installation standard and operation regulations of manufacturer. 2.3.4 Power housing cabinet is placing near people living room, adoption of sealed battery is far more safe. 2.3.5 Negative pole of battery should be in good grounding. 2.4 Wiring requirements: 2.4.1 Connections between components in the system should be fixed and reliable, plug and socket are not allowed for the connection. 2.4.2 The Wind system’s power output terminal must be firmly fixed with consumption load terminal, or the wind system’s power output terminal adopted of using power socket. 2.4.3 Do not use two-way plug for the connection of wind system’s output terminal with consumption load terminal. 3 2.4.4 Any cables or wires of the system, which might be damaged due to outdoor exposure, should be coated with conduit for protection. 3. Precautions: Operators must clearly know safety measurement. Safety relies on our joint efforts. 3.1 All operations must: a. Follow instructions in the manual. b. Operated by specialized workers. c. Accident or injury or possible severe damage to equipment may result if false operation. 3.2 Operation workers must master: a. Equipment recognition. b. Correct equipment operation ability. c. Relevant safety knowledge. 4 Contents 1 WIND TURBINE INTRODUCTION…………………………………… 2 SITING…………………………………………………………………..… 3 APPLICATION RANGE………………………………………………….. 4 MODELS, SELECTION, TECHNICAL SPECIFICATIONS……………… 5 WIND TURBINE ASSEMBLY……………………………………………….. 6 SYSTEM CONFIGURATIONS………………………………………………. 7 DEBUG AND TEST…………………………………………………………. 8 MAINTENANCE……………………………………………………………. 9 TROUBLE SHOOTING…………………………………………………… 10 PACKING, TRANSPORTATION AND STORAGE………………………… APPENDIX I: THE WIND SCALE LIST 5 BEFORE INSTALLATION, PLEASE ENSURE ALL COMPONENTS IN CARTON ARE FULLY MATCHED THE PACKING LIST, IF IN LACK OF ANY PARTS, PLEASE CONTACT US IMMEDIATELY. One ---- Wind Turbine Introduction 1.1 Blades: Patented blades with efficient twisted aerodynamic design are made with Nylon and reinforced fiber glass materials by precision injection molding technology. The blades are of exceptional consistency and aerodynamic outline with a mass distribution that ensures the rotor operates with minimum noise and minimal vibration. Tumo-Int wind turbine has very low start-up/cut-in wind speed and a high coefficient of productivity, which is specially designed to prevent the blades from feathering post stall. 1.2 Generator: Made from high-quality rare earth permanent magnets material. The wind turbine is of small size, light weight and high-efficiency power generation characteristics. Unique electromagnetic design technique has endowed the wind turbines in an excellent start performance, which effectively ensures Tumo-Int wind turbine can be started up in a gentle breeze. 1.3 Body: Tumo-Int wind turbine, adopts high-quality aluminum alloy material and stainless steel accessories, which is light weight. It has such high reliability that can be applicable to various working conditions, such as severe climate, an ambient temperature from -30 ℃ to 60 ℃, high humidity, sand and salt corrosive environment as well. Tumo-Int wind turbine is elegant and easy to install, which makes you enjoy clean energy in all-weather circumstances, as well as a joyful landscape. Two ---- Siting Small changes in wind speed and wind direction can have a dramatic effect on power production. In general, the higher the tower, the greater the wind speed and ultimately power production. Therefore, the siting of your wind turbine should be carefully considered. Each installation is different and is often a compromise among tower height, distance from the battery bank, local zoning requirements and obstacles such as buildings and trees. Specific requirements about installation and sitting of wind turbine are as follows: 2.1 The minimum recommended tower height is 8m on open ground or 5m above nearby obstructions (Fig. 1), there are no obstacles within 100 meters as far as possible; 6 2.2 If install two wind turbines on one area, the distance between them is 8-10 times of rotor diameter. Try to locate the wind turbine in the “cleanest” turbulent free air as possible. Turbulence will reduce the efficiency of the wind turbine and may accelerate wear on rotating components. 2.3 Less natural disaster places are preferred. Safety must be the primary concern when selecting the mounting location. Even if installing the wind turbine in a less than ideal location, don’t attempt to mount the turbine while blades are spinning. Fig.1 Three ---- Application Range At present, Tumo-Int wind turbine has widely applied in: 3.1 Lighting System: city street lights, road lights, landscape lighting; 3.2 Highway Monitoring; 3.3 Telecommunication; 3.4 Offshore Oil Platform; 3.5 Isolated Island Desalination; 3.6 Wind Solar Spring System; 3.7 Power Supply System for Ship; 3.8 Power Supply System for Home; 3.9 Power Supply System for Farm. Four ---- Models, Selection, Technical Specifications 4.1 Model: according to local natural resources, the user should choose the suitable wind turbine. 7 4.2 Selection of Tumo-Int Wind Turbine Tumo-Int wind turbine is applicable to various-climate regions. Please fully consider the surrounding environment resources to bring the best performance while selection of Tumo-Int wind turbine. 4.2.1 Wind Speed: low wind speed wind turbine could effectively utilize wind energy from low wind speed region, it's recommended to use low wind speed model in no hurricane areas with annual wind speed of less than 3.5m/s. 4.2.2 Environmental Temperature: it's recommended to use low-temperature type at regions where minimum temperature is less than -10 ℃. 4.3 Technical Specifications Tumo-Int 3000W 5 blades wind turbine generator Rotor diameter: 3.05m Start-up wind speed: 2.5m/s Cut-in wind speed: 3.0m/s Rated wind speed: 12m/s Rated power: 3000W Rated voltage: DC 48V/110V Blades no.: 5pcs Survival wind speed: 50m/s Over-speed protection: blade aerodynamic elastic, electromagnetic braking and dump load Certifications: CE、RoHS、ISO9001、ETL 8 Five --- Wind Turbine Assembly Most of Tumo-Int wind turbine assembly has been finished in the factory; installation on site is simpler, mainly including mounting blades on the hub, mounting wind turbine on the tower, suspension setting on site and system wiring. Tumo-Int wind turbine has different types, as well as mounting methods. According to wind speed type, it can be divided into: low-wind speed 5 blades wind turbine and high-wind speed 3 blades wind turbine; According to charging type, it can be divided into: off-grid wind turbine and on-grid wind turbine. Please install the whole turbine in accordance with the following instructions of corresponding type. 5.1 Tumo-Int 3000W Wind Turbine Generator (HYE MODEL) Installation Diagram 9 ⑴ The blades (total five). ⑶ One-to-one mounting blade on the hub according to the number of blade and hub and screw down the nuts. ⑵ The hub of five blades. ⑷ Completed pattern. ⑸ The wind turbine. ⑹ Screwing out one terminal of cable cover and connect the cables three-phase wire with wind turbine three-phase wire. ⑺ Passing the cable through the tower. ⑻ Mounting flange and tower with locknuts. 10 ⑼ Mounting the hub with blades onto the motor shaft. ⑽The front cover of five blades(nosecone) ⑾ Pressing the front cover onto the hub (strength equally). ⑿Assembly finished(lightning rod is optional). Six --- System Configurations There are three common system configurations for Tumo-Int 3000W wind turbine: (A) Wind and solar Tumo-Int hybrid power system for home: (B) Wind turbine power system for home: 11 (C) On-grid system wiring diagram: Tumo-Int wind and solar hybrid power system configuration introduction: 6.1 Wind and Solar hybrid Controller Tumo-Int 3000W off-grid wind turbine uses off-grid controller, while on-grid types use on-grid inverter. Off-grid controller is divided into direct charging controller, wind and solar hybrid controller. User can choose by the corresponding wind turbine. In general, Tumo-Int wind and solar hybrid controller can be used the same as charging controller, however, charging controller can not be used in wind and solar hybrid power system. The main voltage specifications of on-grid inverter for Tumo-Int wind turbine is AC110V/60Hz and AC220V/50Hz. User should reasonably choose on the basis of local single-phase voltage class. 6.2 Inverter For customers who need AC power, it is recommended to use AC220V/50Hz or 12 AC110V/60Hz inverter, the capacity should be determined according to maximum electricity load. 6.3 Battery There are many battery choices available –lead acid, absorbed glass mat (AGM), gel cell and NiCad. The type of battery utilized will depend largely on the battery bank location and cost. For battery installations where fumes can be safely ventilated and the potential for acid leakage accommodated, the lead-acid battery is typically the most economical choice. 200AH/12V batteries are recommended for Tumo-Int 2000W and Tumo-Int 3000W wind turbine owners. Negative pole of the battery should be in a good grounding. The capacity must be based on electricity load of the owners. 6.4 Solar Panel The common solar panel models for wind and solar hybrid system have the following standard: Power(W) Voltage(Vdc) Power(W) Voltage(Vdc) 60w 12 24 140w 12 24 75w 12 24 150w 12 24 80w 12 24 180w 12 24 100w 12 24 240w 12 24 120w 12 24 Remark: voltage is calculated by battery voltage. The capacity should be designed in accordance with wind turbine and local wind and sun resources. 6.5 Wire Size All electrical systems lose energy due to resistance in conductors: the wires. Large wires have less resistance but can be considerably more costly. Resistance losses will also increase with increasing current; therefore, if yours is a high wind site, it may be worthwhile to go with a larger size wire to take advantage of the greater power production potential of your site. Conversely, in low wind sites it may not be cost effective to increase the wire size since power production will be low. For selection of wire size, the following factors should be taken into consideration: ① Measuring the distance from the batteries to your Tumo-Int wind turbine. Be sure to include height of the tower; ② Your system voltage; 13 ③ Your system power distance. For selection of wire size, the following factors should be followed: ① Practical and affordable; ② Satisfying using condition; ③ The positive pole of battery is red line, negative pole is black line(or blue line); The following wiring sizes provide maximum annual energy losses of 5% or less for sites with a 5.4m/s average wind speed (assuming the standard Rayleigh distribution of wind speeds) which is sufficient for most sites. Refer to the appropriate chart for your system voltage and number of turbines and select the wire size. A:12 Volt Systems, AWG/Metric Wire Size Unit: mm² No. of Turbines 0-9m 9-18m 18-27m 27-46m 46-58m 58-76m 76-95m 95-119m 119-152m 1 8/10 6/16 4/24 2/35 1/50 00/50 00/10 000/90 000/90 2 6/16 4/25 1/50 00/70 000/90 000/120 ✪ ✪ ✪ 3 4/25 2/35 0/50 000/90 000/120 ✪ ✪ ✪ ✪ B:24 Volt Systems, AWG/Metric Wire Size Unit: mm² No. of Turbines 0-9m 9-18m 18-27m 27-46m 46-58m 58-76m 76-95m 95-119m 119-152m 1 14/2.5 12/4 10/6 8/10 6/16 4/50 4/10 4/90 2/90 2 12/4 8/10 6/16 4/25 4/25 2/35 2/35 1/50 0/50 3 10/6 8/10 6/16 4/25 2/35 2/35 1/50 0/50 00/10 C:48 Volt Systems, AWG/Metric Wire Size Unit: mm² No. of Turbines 0-27m 27-76m 76-95m 95-152m 1 14/2.5mm² 12/4 mm² 6/16mm² 8/10mm² 2 12/4 mm² 8/10mm² 6/16mm² 4/25mm² 3 10/6mm² 8/10mm² 10/6mm² 4/25mm² Seven --- Debug and Test The operation of wind turbine system should be debugged after installation, the requirements are as follows: 7.1 Make sure the functions of controller meet the requirements; the specification of controller is matched with voltage and current of battery, solar panel, wind turbine, loads; 7.2 Wiring is in strict accordance with wiring requirements of controller. Firstly, connect to 14 battery and dumper, and then connect to small wind turbine and solar panel, at last connect to load; take down connection in the reverse order. Positive and negative pole of the battery, solar panel can not be reversed and short-circuited; 7.3 The wire leads of wind turbine and connection wires of battery should refer to 6.5 requirement and regulations; 7.4 Please read carefully about controller instructions to set the functions after the completion of system wiring, such as model selection and regular time setting; 7.5 PV charging debug: In the light condition (output voltage of solar panel is greater than that of battery), the controller’s PV indicator should be working (normal on or blinking), measure output current by DC clamp meter, the current size depends on illumination intensity and battery capacity; 7.6 Wind turbine charging debug: wind turbine operation is normal or not when it is windy, while reach or exceed cut-in wind speed, the controller’s wind turbine indicator should be working (normal on or blinking), measure output current by AC clamp meter, the current size depends on wind speed and battery capacity; 7.7 Light-control function debug: measure battery voltage by multimetre to ensure battery voltage is higher than over discharge recovery voltage, then set to light-control mode, disconnect any wire of solar panel from controller, several minutes later, observe whether the light of loads is on or not, it is normal if the light is on. Then connect the solar panel wire with controller again, the load output is cut off a few minutes later and the light goes out; 7.8 Time-control function debug: ensure battery voltage is higher than over discharge recovery voltage, observe whether the lighting time of load output light is the same as that of setting. 7.9 Detailed debug and test about on-grid wind turbine refer to on-grid inverter manual. The controller specification and detailed debug methods are subject to controller manual. Eight --- Maintenance Although your high reliability of Tumo-Int wind turbine has been designed to run for long periods without requiring any maintenance, reliability and performance will be enhanced if 15 you periodically inspect your system. The following situations need regular maintenance: No. Maintenance item After storm 1 Check the guy rope tightness of tower √ 2 Check the working condition of the whole system and connector tightness √ 3 Maintain battery (refer to battery manual) 4 Check all electrical connections to make sure they are tight and free from corrosion. √ 5 Wash off any built-up dirt or debris from the blades and check blades for chips or nicks √ 6 Check damaged degree of nosecone √ 7 Replace blades 8 Replace battery Every six months Every a year Every two years Every five years √ √ √ √ √ √ √ Remark: “√” indicates maintenance. Nine --- Trouble Shooting 9.1 Wind turbine’s Abnormal Vibration Wind turbine vibration is mainly caused by the following reasons: ① Guy rope is loose and needs to be tightened; ② The blades mounting bolts on are loose and need to be tightened; ③ The surface of blades freeze and needs to be removed; ④ The blades have been distorted, defected and need to be replaced by contact of supplier. CAUTION: Turbine operation should be stopped as soon as abnormal vibration happened, and then solve problems. 9.2 Abnormal Noise Besides wind turbine running well creates noise, it is probably cause by friction between rotor and stator, bearing damaged, in case of these situations, please contact supplier to solve problems. 9.3 Rotational Speed Dramatically Decreases Wind turbine rotational speed dramatically decreases under heavy wind condition, which can be mainly divided into normal deceleration and abnormal deceleration: 16 ① Turbine normal deceleration is mainly due to wind turbine over-voltage protection, dump load, electromagnetic braking and normal short circuit, which is wind turbine regular work; ② Turbine abnormal deceleration is mainly due to friction between rotor and stator, bearing damaged, generator burned, in case of these situations, please contact supplier to solve problems. 9.4 Wind Turbine Insensitive to Adjust Blades Direction Tumo-Int wind turbine mainly adopts tail yaw to adjust the blades direction, if it is not sensitive to adjust blades direction, which is because the turbine alternator shaft is damaged, the tower is out of vertical, in case of these situations, the shaft should be replaced and tower vertically must be adjusted. 9.5 Generator Abnormal AC Output Generator abnormal AC output mainly is divided into: ① Generator output voltage is low, which is due to low wind speed or long connection line, small wire size results in high pressure drop, therefore, selection of wire size should refer to 6.5 regulations and requirements. ② Generator three-phase output voltage is imbalanced. Voltage unbalanced rate shall not exceed 10% (same wind speed or rotational speed) in accordance with related national standards, if exceeded, the generator fails, please contact supplier to solve problems. ③ Generator has no output voltage under heavy condition, check whether generator is normal short-circuited or not and three-phase resistance values are balanced or not (uncharged operation), if imbalanced, the generator fails, please contact supplier to solve problems. 9.6 Generator Has AC Output but No DC Output Off-grid wind turbine charges battery, wind turbine transfers AC to DC by controller, the DC voltage must be higher than battery voltage, or turbine will not generate power. If AC input voltage of the generator is normal (voltage higher than battery voltage after rectification) while there is no current display on DC terminal, check whether the controller’s wind turbine indicator work or not (blinking), connection is normal or not, connection terminals are burned or not, fuses are burned out or not etc. Analyze these 17 situations and get rid of the troubles. In the event of burning of controller, please contact supplier to solve problems. 9.7 Solar Output Voltage Too Low or No Output in Wind and Solar hybrid System Check whether solar panel lead is short circuit, circuit break, open circuit or not. 9.8 Light Source Is Not On in Wind and Solar hybrid System This situation is mainly cause by: ① Light source is damaged and need to be replaced; ② Battery is under voltage, controller does not supply power, which is system normal protection; ③ Controller is burned out and needs to be replaced; ④ The mode setting on the controller is not correct and needs to be reset according to controller manual. 9.9 Wind Turbine Does Not Charge Battery This situation is mainly caused by: ① Wind speed is too small to reach cut in state, output DC voltage of wind turbine is lower than battery voltage; ② Type of battery is not matched with controller, battery should be replaced (commonly use lead acid battery); ③ Burning of controller results in not charging battery, controller should be replaced; ④ Battery is fully charged, controller is over-voltage protection. 9.10 On-grid inverter faults and trouble shooting refers to inverter fault codes and solutions. Ten --- Packing, Transportation and Storage 10.1 Tumo-Int wind turbine components are packaged separately in accordance with national standard packaging requirements. 10.2 Tumo-Int wind turbine meets transportation requirements of all components. 10.3 Tumo-Int wind turbine meets storage requirements of all components. 18 10.4 The packaging design of Tumo-Int wind turbine meets the following criteria: GB/T 4857.3 Transport Packages Stacking Test Methods Using a Static Load GB/T 4857.5 Transport Packages Drop Test Methods GB/T 1974-88 General Specification for Transport Packages of General Cargo Recommended handling ways: Fort lift work Manual work APPENDIX I: THE WIND SCALE LIST 19 WIND SPEED、WIND TURBINE AND NATURAL CONDITION COMPARATION Tropical cyclone classific ation Classificat ion 0 Calm 1 Light Air 0.1 0.1 2 Light Breeze 0.2 3 Gentle Breeze 4 Us ual Appearance on Water Wind pressure (10N/m²) km/h Sea surface smooth and mirror-like. 0.0~0.2 <1 0-0.0025 Smoke drift indicates wind direction. Wind vanes are still. Scaly ripples, no foam crests. 0.3~1.5 1~5 0.0056-0.014 0.3 Wind Felt on face, leaves rustle, wind vanes begin to move. Small wavelets, crests glassy, no breaking. 1.6~3.3 6~11 0.016-0.68 0.6 1.0 Leaves and small twigs constantly moving, light flags moving. Large wavelets, crest begins to break, scattered whitecaps. 3.4~5.4 12~19 0.72-1.82 Moderate Breeze 1.0 1.5 Dust, leaves and loose paper lifted, small tree branches move. Small waves 1 -4 ft. becoming longer, numerous whitecaps. 5.5~7.9 20~28 1.89-3.9 5 Fresh Breeze 2.0 2.5 Small trees with leaves begin to sway. Moderate waves, 4-8 ft. taking longer from, many whitecaps, some spray. 8.0~10.7 29~38 4-7.16 6 Strong Breeze 3.0 4.0 Larger tree branches moving, whistling in wires. Larger waves, 8-13 ft, whitecaps common, more spray 10.8~13.8 39~49 7.29-11.9 7 Moderate gale 4.0 5.5 Whole trees moving, resistance to walking against wind. Sea heaps up 13 – 20 ft, white foam streaks off breakers. 13.9~17.1 50~61 12.08-18.28 Moderately high (13-20 ft) waves of greater length, edges of crests begin to break into spindrift, foam blown in streaks. 17.2~20.7 62~74 18.49-26.78 Calm, smoke vertically rises 8 Fresh Gale 5.5 7.5 Whole trees in motion, resistance to walking against wind. 9 Strong gale 7.0 10.0 chimney destroyed Violent waves along the direction of the wind, foam blown in dense streaks, wave began to roll over. 20.8~24.4 75~88 27.04-37.21 10 Whole gale 9.0 12.5 Trees uprooted Raging sea, long crests is rolling over, foam blown in dense streaks, the sea is white. 24.5~28.4 89~102 37.52-50.41 Tropical storm Strong Appearance on Land High est Wind speed( equivalent to 10m high of ground) m/s — Tropical depressi on Wave height (m) Wi nd for ce 1
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Key Features
- 5 Blades
- 3000W Power
- Low Start-up Speed
- Durable Construction
- Hybrid System Compatibility
- Off-Grid & On-Grid Options
- Direct Charging & Hybrid Controller
- Adjustable Blades
- Over-Speed Protection
- Easy Installation
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Frequently Answers and Questions
What is the minimum recommended tower height for the Tumo-Int 3000W wind turbine?
The minimum recommended tower height is 8m on open ground or 5m above nearby obstructions.
What types of batteries are recommended for the Tumo-Int 3000W wind turbine?
200AH/12V batteries are recommended for the Tumo-Int 3000W wind turbine.
How does the wind turbine adjust blade direction?
The Tumo-Int wind turbine uses a tail yaw system to adjust blade direction.