Explanation Given information: The radius of the Pelton wheel is 2 m , the density of fluid is 1000 kg / m 3 , the volume flow rate of fluid is 10 m 3 / s , the number of rotation is 150 rpm , the velocity of the jet or fluid is 50 m / s and the vane angle is 160 ° . The below figure represent the attack of fluid at the bucket of the Pelton wheel. Figure-(1) Consider: The flow is uniform and steady. The gage pressure at the nozzle outlet is zero. The frictional losses are neglected. Write the expression of relative velocity. V r = V j − V bucket ...... (I) Here, the jet velocity is V j and the bucket velocity is V bucket . Write the expression of bucket velocity. V bucket = r ω Here, the Pelton wheel radius is r and the angular velocity is ω . Substitute r ω for V bucket in Equation (I). V r = V j − r ω ...... (II) Write the expression of mass of the fluid. m = ρ V ˙ ...... (III) Here, the density of the water is ρ and the volume flow rate of fluid is V ˙ . Write the expression of angular speed. ω = 2 π n ˙ 60 ...... (IV) Here, the number or rotation is n ˙ . Write the expression of angular momentum equation. M shaft = r m V r ( 1 − cos β ) ...... (V) Here, the vane angle is β . Substitute V j − r ω for V r in Equation (V). M shaft = r m ( V j − r ω ) ( 1 − cos β ) ...... (VI) Write the expression of generated power. W shaft = ω M shaft ...... (VII) Substitute r m ( V j − r ω ) ( 1 − cos β ) for M shaft in Equation (VII). W shaft = ω r m ( V j − r ω ) ( 1 − cos β ) ...... (VIII) Substitute ρ V ˙ for m in Equation (VIII). W shaft = ω r ( ρ V ˙ ) ( V j − r ω ) ( 1 − cos β ) = ρ ω r V ˙ ( V j − ω r ) ( 1 − cos β ) ...... (IX) The power produced by Pelton wheel is ρ ω r V ˙ ( V j − ω r ) ( 1 − cos β ) . Calculation: Substitute 1000 kg / m 3 for ρ and 10 m 3 / s for V ˙ in Equation (III). m = ( 1000 kg / m 3 ) ( 10 m 3 / s ) = ( 1000 × 10 kg / s ) = ( 10000 kg / s ) Substitute 150 rpm for n ˙ in Equation (IV)

4th Edition

ISBN: 8220103676205

Author: CENGEL

Publisher: YUZU

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Chapter 6, Problem 62P

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The expression for power produced by Pelton wheel.

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Chapter 6, Problem 61P

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EBK FLUID MECHANICS: FUNDAMENTALS AND A

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The power produced by a Pelton wheel. The expression for power produced by Pelton wheel.

Solution Summary: The author explains the expression for power produced by a Pelton wheel, which is 11.32MW.