A hydroelectric plant has a reservoir of area 2 sq. kilometres and of capacity 5 million cubic meters. The net head of water at the turbine is 50 m. If the efficiencies of turbine and generator are 85 % and 95 % respectively, calculate the total energy in kWh that can be generated from this station. If a load of 15000 kW has been supplied for 4 hours, find the fall in reservoir. [5-5x 10 kWh: 27-8 cm]
A hydroelectric plant has a reservoir of area 2 sq. kilometres and of capacity 5 million cubic meters. The net head of water at the turbine is 50 m. If the efficiencies of turbine and generator are 85 % and 95 % respectively, calculate the total energy in kWh that can be generated from this station. If a load of 15000 kW has been supplied for 4 hours, find the fall in reservoir. [5-5x 10 kWh: 27-8 cm]
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![3. Ahydroelectric plant has a reservoir of area 2 sq. kilometres and of capacity 5 million cubic meters. The
net head of water at the turbine is 50 m. If the efficiencies of turbine and generator are 85% and 95%
respectively, calculate the total energy in kWh that can be generated from this station. If a load of 15000
kW has been supplied for 4 hours, find the fall in reservoir.
[5-5 x 10 kWh; 27-8 cm]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd57d335e-b9b0-4c37-a221-197705cefa93%2F672f3577-d28e-4c24-80a7-a8a761fce1b8%2Flnmzthl_processed.jpeg&w=3840&q=75)
Transcribed Image Text:3. Ahydroelectric plant has a reservoir of area 2 sq. kilometres and of capacity 5 million cubic meters. The
net head of water at the turbine is 50 m. If the efficiencies of turbine and generator are 85% and 95%
respectively, calculate the total energy in kWh that can be generated from this station. If a load of 15000
kW has been supplied for 4 hours, find the fall in reservoir.
[5-5 x 10 kWh; 27-8 cm]
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