Explanation Given information: The speed of turbine is 100 rpm , net head is 9.75 m and power output is 5.37 MW . Expression for angular velocity ω = 2 π N 60 ....(I) Here, speed of runner is N . Expression for dimensionless specific speed N st = ω ( W ˙ shaft ) 1 / 2 ( ρ ) 1 / 2 ( g H ) 5 / 4 ....(II) Here, acceleration due to gravity is g , power output is W ˙ shaft , density of water is ρ and net head is H . Calculation: Substitute 100 rpm for N in Equation (I). ω = 2 π × 100 rpm 60 = 2 π × 100 rpm 60 × 1 rad / s 1 rpm = 10.47 rad / s Refer to Table-A-3 "Properties of saturated water" at 20 ° C to obtain density of water as 998 kg / m 3 . Substitute 5.37 MW for W ˙ shaft , 10.47 rad / s for ω , 998 kg / m 3 for ρ , 9.81 m / s 2 for g and 9.75 m for H in Equation (II). N st = ( 10

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Chapter 14, Problem 104P

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Chapter 14, Problem 103P

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Chapter 14 Solutions

EBK FLUID MECHANICS: FUNDAMENTALS AND A

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The turbine specific speed.

Solution Summary: The author explains the turbine specific speed, which is 2.57, and the angular velocity, power output and density of water.

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Chapter 14 Solutions