To determine The flow rate. Explanation Given Information: We have following figure with a turbine which extracts 400 W of power. Using Bernoulli’s equation between point 1 and 2 in the figure, P 1 ρ g + V 1 2 2 g + z 1 = P 2 ρ g + V 2 2 2 g + z 2 + h f 1 + h f 2 + h t u r b i n e Here we have, V 1 = 0 , P 1 = P 2 . Thus we get, z 1 = V 2 2 2 g + z 2 + h f 1 + h f 2 + h t u r b i n e ⇒ z 1 − z 2 = 20 = V 2 2 2 g + h f 1 + h f 2 + h t u r b i n e Also we have, h f 1 = 8 f 1 L 1 Q 2 π 2 g d 1 5 ; h f 2 = 8 f 2 L 2 Q 2 π 2 g d 2 5 ; V 2 / 2 g = 8 Q 2 π 2 g d 2 4 Substituting these expressions in equation, we get h t u r b i n e = 20 −

8th Edition

ISBN: 9780073398273

Author: Frank M. White

Publisher: McGraw-Hill Education

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Chapter 6, Problem 6.76P

To determine

The flow rate.

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Chapter 6, Problem 6.75P

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