1.2 A hydro-electric power station is used to supplement the unmet constant load demand for 2 hours and 30 minutes during peak periods. It has a reservoir of 0.03 km2 area and a 2.7 metres depth. The overall water in the reservoir can generate a total energy of 17236 kWh at an effective head of 95 metres. After supplying the load, the reservoir depth has decreased by 20%. Correct every question to two decimal places : 6. Determine the overall efficiency of the power station. 7. Determine the load consumption (kWh). 8. Determine the volumetric flow rate (m3/s). And Determine the remaining volume of water after supplying the unmet load demand (m3)
1.2 A hydro-electric power station is used to supplement the unmet constant load demand for 2 hours and 30 minutes during peak periods. It has a reservoir of 0.03 km2 area and a 2.7 metres depth. The overall water in the reservoir can generate a total energy of 17236 kWh at an effective head of 95 metres. After supplying the load, the reservoir depth has decreased by 20%. Correct every question to two decimal places : 6. Determine the overall efficiency of the power station. 7. Determine the load consumption (kWh). 8. Determine the volumetric flow rate (m3/s). And Determine the remaining volume of water after supplying the unmet load demand (m3)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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1.2 A hydro-electric power station is used to supplement the unmet constant load
demand for 2 hours and 30 minutes during peak periods. It has a reservoir of 0.03 km2
area and a 2.7 metres depth. The overall water in the reservoir can generate a total
energy of 17236 kWh at an effective head of 95 metres. After supplying the load, the
reservoir depth has decreased by 20%.
Correct every question to two decimal places :
6. Determine the overall efficiency of the power station.
7. Determine the load consumption (kWh).
8. Determine the volumetric flow rate (m3/s). And Determine the remaining volume of water after supplying the unmet load demand (m3)
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