Answer(i) and (ii) The hydroelectric facility that has been proposed will consist of a turbine with anefficiency of 89.2%. The facility will be located at a vertical depth of 14.8 m below theriverbed. The river flows with the following properties:o hydraulic diameter of 6.25 mo slope of 0.031o wetted perimeter of 12.2 ma Chézy coefficient of 4.85 m0.5 s-1.The density of the river water is 998.2 kg m, and the acceleration due to gravity is9.81 m s2.Assuming that the turbine operates for 94.0% of the time and one year is approximately3.1536 x 10 s, calculate:i. the mass flow rate of the riverii. the maximum energy that could be extracted annually from the river flow.

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The hydroelectric facility that has been proposed will consist of a turbine with an efficiency of 89.2%. The facility will be located at a vertical depth of 14.8 m below t riverbed. The river flows with the following properties: o hydraulic diameter of 6.25 m o slope of 0.031 o wetted perimeter of 12.2 m 0.5 a Chézy coefficient of 4.85 mo5 s-1. The density of the river water is 998.2 kg m , and the acceleration due to gravity is 9.81 m s2. Assuming that the turbine operates for 94.0% of the time and one year is approxima 3.1536 x 10' s, calculate: i. the mass flow rate of the river

The hydroelectric facility that has been proposed will consist of a turbine with an efficiency of 89.2%. The facility will be located at a vertical depth of 14.8 m below t riverbed. The river flows with the following properties: o hydraulic diameter of 6.25 m o slope of 0.031 o wetted perimeter of 12.2 m 0.5 a Chézy coefficient of 4.85 mo5 s-1. The density of the river water is 998.2 kg m , and the acceleration due to gravity is 9.81 m s2. Assuming that the turbine operates for 94.0% of the time and one year is approxima 3.1536 x 10' s, calculate: i. the mass flow rate of the river

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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