4) The turbine extracts 0 hp from the water flowing through it. The pipe with diameter of 1 ft and length of 300 ft is assumed to have a friction factor of 0 02. Minor losses are negligible. Determine flowrate through the pipe and turbine? Head losses is h₁ = 85 ft (1) 21 = 90 ft 300-ft-long, 1-ft-diameter pipe f = 0.02 Turbine (2) Free jet 42 = 0

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4) The turbine extracts 0 hp from the water flowing through it. The pipe with
diameter of 1 ft and length of 300 ft is assumed to have a friction factor of 0 02.
Minor losses are negligible. Determine flowrate through the pipe and turbine?
Head losses is h₁ = 85 ft
▼
Imad ti
EBOOK
(1)
1 = 90 ft
300-ft-long,
1-ft-diameter pipe
f = 0.02
Turbine
(2)
Free jet
42 = 0
Transcribed Image Text:4) The turbine extracts 0 hp from the water flowing through it. The pipe with diameter of 1 ft and length of 300 ft is assumed to have a friction factor of 0 02. Minor losses are negligible. Determine flowrate through the pipe and turbine? Head losses is h₁ = 85 ft ▼ Imad ti EBOOK (1) 1 = 90 ft 300-ft-long, 1-ft-diameter pipe f = 0.02 Turbine (2) Free jet 42 = 0
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