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Vater is supplied at 170 ft³/s and 71 psi to a hydraulic turbine through a 3-ft inside-diameter inlet pipe as indicated in the figure below. ne turbine discharge pipe has a 4.1-ft inside diameter. The static pressure at section (2), 10 ft below the turbine inlet, is 10 in. Hg acuum. If the turbine develops 2300 hp, determine the rate of loss of available energy between sections (1) and (2). P1 = 71psi Q=170ft³/s Section (1) D₁ = 3 ft Turbine L 10 ft P₂ = 10 in. Hg vacuum power loss = D₂=4.1ft Section (2) hp

Vater is supplied at 170 ft³/s and 71 psi to a hydraulic turbine through a 3-ft inside-diameter inlet pipe as indicated in the figure below. ne turbine discharge pipe has a 4.1-ft inside diameter. The static pressure at section (2), 10 ft below the turbine inlet, is 10 in. Hg acuum. If the turbine develops 2300 hp, determine the rate of loss of available energy between sections (1) and (2). P1 = 71psi Q=170ft³/s Section (1) D₁ = 3 ft Turbine L 10 ft P₂ = 10 in. Hg vacuum power loss = D₂=4.1ft Section (2) hp

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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View Policies Current Attempt in Progress Water is supplied at 170 ft³/s and 71 psi to a hydraulic turbine through a 3-ft inside-diameter inlet pipe as indicated in the figure below. The turbine discharge pipe has a 4.1-ft inside diameter. The static pressure at section (2), 10 ft below the turbine inlet, is 10 in. Hg vacuum. If the turbine develops 2300 hp, determine the rate of loss of available energy between sections (1) and (2). Section (1), 10 ft power loss = P₁ = 71psi Q=170ft³/s D₁ = 3 ft Turbine P₂ = 10 in. Hg vacuum D₂=4.1ft Section (2) hp
Transcribed Image Text:View Policies Current Attempt in Progress Water is supplied at 170 ft³/s and 71 psi to a hydraulic turbine through a 3-ft inside-diameter inlet pipe as indicated in the figure below. The turbine discharge pipe has a 4.1-ft inside diameter. The static pressure at section (2), 10 ft below the turbine inlet, is 10 in. Hg vacuum. If the turbine develops 2300 hp, determine the rate of loss of available energy between sections (1) and (2). Section (1), 10 ft power loss = P₁ = 71psi Q=170ft³/s D₁ = 3 ft Turbine P₂ = 10 in. Hg vacuum D₂=4.1ft Section (2) hp
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