Description
Looking for a wind turbine that can deliver exceptional performance and endure tough weather conditions? BrightRevo wind turbines may be just what you need! Our turbines are made of high-quality cast steel, ensuring remarkable durability and reliability, even in harsh environments.
The key to our turbines’ impressive performance lies in our advanced NdFeB permanent magnet technology, which efficiently converts wind energy into electricity in a compact package. Moreover, our innovative electro-magnet design results in low bonding force and cut-in speed, which allows our turbines to start producing power even in the slightest breeze.
Whether you need to power your home or business, trust BrightRevo wind turbines to provide unrivaled quality and performance. Don’t settle for less; choose BrightRevo to power your life with excellence.
Specifications
Three-bladed Rotor Diameter | 32.8 ft (10 m) |
Material and Number of Blades | Reinforced fiber glass (3 units) |
Nominal Output/Maximum Output | 20/25 kW |
Rated Wind Speed | 24.6 mph (11 m/s) |
Startup Wind Speed | 6.7 mph (3 m/s) |
Working Wind Speed | 6.7 – 56 mph (3 – 25 m/s) |
Survived Wind Speed | 100 mph (45 m/s) |
Rated Rotational Speed | 200 r/min |
Working Voltage | DC 240V/360V/480V |
Generator Type | 3-phase NdFeB permanent magnet |
Charging Method | Voltage and current regulation |
Speed Regulation Method | Yaw + Auto brake |
Weight | 2535 lb (1150 kg) |
Tower Height | 60 ft (18 m) |
Suggested Battery Capacity | 80 sets of 12V 200AH deep cycle batteries |
Lifetime | 15 years |
Optimal Performance and Maintenance
To ensure the optimal performance of your wind turbine, it’s essential to consider its installation location and maintenance needs. Here are some key points to keep in mind:
• When selecting a location for your wind turbine, it’s important to choose an open and flat area that’s free of any nearby barriers. This will help to ensure that the turbine can function efficiently and effectively, with maximum exposure to wind.
• If you’re using an off-grid wind turbine to generate electric power, it will be charged to a group of batteries. During periods of low wind, the turbine will consume electricity from the battery group. To ensure that the batteries remain in good condition, it’s important to recharge them in a timely manner, particularly in the case of lead-acid batteries. Over-discharging or over-charging the batteries, or failing to recharge them promptly, can significantly reduce their lifespan. Therefore, it’s important for users to regulate their electricity consumption based on local wind conditions and the electricity capacity generated by the wind turbine.
• Once the 3-phase AC electricity generated by the wind turbine passes through full wave bridge rectification, it is output as DC power, typically with voltages of DC24V, 36V, 48V, or 120V. To ensure optimal performance, it’s important to ensure that the voltage of the battery group matches the DC voltage of the wind generator after rectification.
• Finally, when selecting an inverter to use with your wind generator, it’s important to ensure that the input DC voltage of the inverter matches the working voltage of the wind generator after rectification. This will help to ensure that the turbine functions safely and effectively without risk of damage to the inverter or other components.
By following these guidelines, you can help to ensure optimal performance and lifespan for your wind turbine system.
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