b) and protecting valve. There is a large river of fresh water (having the density of 1000 kgm) in the northern area of England available for storage where the water level changes by 3.8 m an exit having a potential of installing a small size hydroelectric power station. If the river has a typical flow of 0.1 cumecs (cubic metre per second). L i. If the turbine/generator efficiency is 70% then calculate the amount of power available? W. Determine the maximum installed capacity for continuous electrical power generation? iv. How much energy, in kWh, this hydroelectric power station can generate if it is operated for 15 hours if the plant efficiency is 70% ? What will be the annual energy capture, in kWh, for the case if the load factor is 40%7

Plz plz solve all four parts

Transcribed Image Text:

b) and protecting valve. There is a large river of fresh water (having the density of 1000 kgm) in the northern area of England available for storage where the water level changes by 3.8 m an exit having a potential of installing a small size hydroelectric power station. If the river has a typical flow of 0.1 cumecs (cubic metre per second). L M. Iv. Determine the maximum installed capacity for continuous electrical power generation? If the turbine/generator efficiency is 70% then calculate the amount of power available? How much energy, in kWh, this hydroelectric power station can generate if it is operated for 15 hours if the plant efficiency is 70%? What will be the annual energy capture, in kWh, for the case if the load factor is 40%7