Assume the fan blades are installed every 60 seconds. A 1,500 kilowatt wind turbine generates 25 kilowatt hours of electricity per revolution.
The calculation method is as follows:
The power generated by a 1,500 kW generator in one hour is 1,500 KWH, or 1,500 kilowatt hours of electricity
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1,500 kilowatt hours of electricity/hour ÷ 60 revolutions/hour = 25 kWh/circle.
Detailed information:
The kilowatt (Kilowatt), one of the earliest units of electrical power, now tends to be extended to the unit of power throughout the field of physics. In electricity, kilowatt hour is exactly the same thing as degree, but they have different names.
1 kilowatt = 1,000watts (Watt) = 1000 joules (Joule)/second (Second).
1 kilowatt = 1,000 Newton meters per second (N m/s)
1 kilowatt = 0.239 kcal/s
1 kilowatt = 1.36 horsepower -steam
A kilowatt hour or kilowatt hour (symbol: kW·h; often abbreviated to degrees) is a unit of energy measurement which represents the energy consumption of a device with a power of one kilowatt after one hour of use. energy consumed.
The unit "kilowatt hour" is mainly used to measure electricity, because "kilowatt hour" is easier for the public to understand than joule, and it is easier to convert to hours of electricity. use of electrical appliances. On the other hand, the joule unit of measurement is too small compared to "kilowatt hour", making it difficult to calculate. In mainland China, some public institutions also use "megawatt hour" instead of "kilowatt hour" on their billing sheets. In Chinese, “kilowatt” is sometimes written 瓩.
1kW·h = 3,600,000 joules = 3.6 million joules.
The physical meaning of 1 kilowatt hour is: the electrical energy consumed by an electrical appliance with a power of 1 kW for 1 hour of work (or the work done for 1 hour of work).
One kilowatt per hour is equal to:
3.599712 × 10 joules;
1.3596112 metric horsepower per hour;
1.3408927 imperial horsepower per hour hour;
8.599712023×10 kcal.
Baidu Encyclopedia - kilowatts
Baidu Encyclopedia - kilowatt hours
First, are you sure the wind is strong enough that the fan turns, right? So there's no problem with a bigger inverter, but there's no problem with a bigger inverter. So what is your charge? It's definitely not a battery. Battery power has nothing to do with fan operation. Try connecting it to abig load. AdditionallyIf it still doesn't turn, that means the brake is inside. Read the manual. Check if there is an internal structure or something like that. This problem also occurs if there are brakes and guards. A 1000W fan is generally a system with a simple structure. As long as there is no problem with the inverter you should be fine. Be careful not to short circuit.