Your question is ridiculous
If it's hydropower, it depends on how much potential energy your ton of water has. It's as if your ton of water hit the turbine from a height of one meter or. The impact of the water turbine at a distance of one hundred meters has nothing to do with the water itself
If it comes to thermal energy production, the Thermal energy generated by combustion is converted into internal energy, and the high-velocity hot steam is used to operate the gas turbine, thus driving the operation of the generator. The energy conversion process of nuclear power plants is also similar to the conversion process of thermal power generation.
In. In short, the production of electricity has nothing to do with the water itself, it is simply a vector of the energy conversion process.
If you use this ton of water to many times. If the impact turbineat high speed is recycled, it can theoretically provide electricity to the whole world!
1 ton = 1000 kg, the potential energy of one ton of water per meter: 1000 kg*9.8 m/S2=9800 N (Newton)
< p>Calculated on the basis of a water level 100 m high, then the energy of each ton of water. The work done is: W=9800N*100m=980000J (Joule)And one kilowatt hour of electricity (1kW.h) is equal to 3600000J (3.6MJ), therefore the production capacity of electricity per ton of hydropower is:
< p>980000/3600000=0.27 kWhIf the water level is less than 100 meters, the value will be reduced proportionally. If the conversion efficiency of the generator is considered to be around 50%, its value will be lower.