A hydroelectric plant has a head of 80 m and a water volumetric flow rate of 1200 m³/s. Determine the maximum power that the plant can produce, the amount of electrical power that can be produced if the overall efficiency of the plant is 60%, and the energy that the plant will produce for operating hours of 7000 h. (Take the density of water as 1000 kg/m³). OO a. Pmax = 765.7 MW, Pelec = 453.6 MW, E = 2654 GWh b. Pmax=220 MW, Pelec = 123.4 MW, E = 4433 GWh C. Pmax=941.8 MW, Pelec = 565.1 MW, E = 3955.7 GWh d. Pmax=871.4 MW, Pelec = 789.3 MW, E = 2345.1 GWh

A hydroelectric plant has a head of 80 m and a water volumetric flow rate of 1200 m³/s. Determine the maximum power that the plant can produce, the amount of electrical power that can be produced if the overall efficiency of the plant is 60%, and the energy that the plant will produce for operating hours of 7000 h. (Take the density of water as 1000 kg/m³). OO a. Pmax = 765.7 MW, Pelec = 453.6 MW, E = 2654 GWh b. Pmax=220 MW, Pelec = 123.4 MW, E = 4433 GWh C. Pmax=941.8 MW, Pelec = 565.1 MW, E = 3955.7 GWh d. Pmax=871.4 MW, Pelec = 789.3 MW, E = 2345.1 GWh

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter7: Work, Energy, And Energy Resources

Section: Chapter Questions

Problem 40PE: (a) What is the available energy content, in joules, of a battery that operates a 2.00-W electric...

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