Explanation Given information: The temperature of the water is 70 ° F , density of the water is 62.3 lbm / ft 3 , dynamic viscosity of the water is 6.556 × 10 − 4 lbm / ft ⋅ s , loss coefficient at entrance is 0.03 , loss coefficient for elbow is 0.3 , loss coefficient for valve is 0.2 , loss coefficient at exit is 1.0 , length of the pipe is 60 ft , diameter of the pipe is 2 in , roughness of the cast iron pipe surfaces is 8.5 × 10 − 4 ft, and volume flow rate of the water is 10 ft 3 / min . Write the expression for the Reynolds number. Re = ρ v D μ ........... (I) Here, Reynolds number is Re , density of the water is ρ , velocity of the water is v , diameter of the pipe is D , and dynamic viscosity of the water is μ . Write the expression for the volume flow rate of the water. Q ˙ = π 4 D 2 v ........... (II) Here, the volume flow rate of the water is Q ˙ . Write the expression for the friction factor for turbulent flow. 1 f = − 2 log ( ε D 3.7 + 2.51 Re f ) ........... (III) Here, friction factor for turbulent flow is f and roughness of the copper pipe surfaces is ε . Write the expression for the major head loss through the pipe. h f , major = f L v 2 2 g D ........... (IV) Here, length of the pipe is L , gravitational acceleration is g , and the major head loss through the pipe is h f , major . Write the expression for the minor head loss through the pipe. h f , minor = ∑ K L ( v 2 2 g ) ........... (V) Here, minor head loss through the pipe is h f , minor and sum of all loss coefficients is ∑ K L . Write the expression for the sum of all loss coefficients. ∑ K L = K L , entrance + 4 K L , elbow + K L , valve + K L , exit ........... (VI) Here, loss coefficient at entrance is K L , entrance , loss coefficient for elbow is K L , elbow , loss coefficient for valve is K L , valve , and loss coefficient at exit is K L , exit . Write the expression for the total head loss in the pipe. h f = h f , major + h f , minor ........... (VII) Here, total head loss in the pipe is h f . Substitute ∑ K L ( v 2 2 g ) for h f , minor and f L v 2 2 g D for h f , major in Equation (VI). h f = f L v 2 2 g D + ∑ K L ( v 2 2 g ) = ( f L D + ∑ K L ) v 2 2 g ........... (VIII) Write the expression for the Bernoulli Equation. P 1 ρ g + V 1 2 2 g + Z 1 = P 2 ρ g + V 2 2 2 g + Z 2 + h f ........... (IX) Here, pressure at point 1 is P 1 , velocity at point 1 in v 1 , density of the fluid is ρ , gravitational acceleration is g , total head loss in pipe is h f , elevation of point 1 is Z 1 , pressure at point 2 is P 2 , velocity at point 2 in v 2 , and elevation of point 2 is Z 2 . Calculation: Substitute 10 ft 3 / min for Q ˙ and 2 in for D in Equation (II). ( 10 ft 3 / min ) = π 4 ( 2 in ) 2 v ( 10 ft 3 / min ) [ 1 min 60 s ] = π 4 ( ( 2 ) [ 1 ft 12 in ] ) 2 v v = 7.64 ft / s Substitute 62.3 lbm / ft 3 for ρ , 7.64 ft / s for v , 6.556 × 10 − 4 lbm / ft ⋅ s for μ and 2 in for D in Equation (I). Re = ( 62

Fluid Mechanics Fundamentals And Applications

3rd Edition

ISBN: 9780073380322

Author: Yunus Cengel, John Cimbala

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 8, Problem 78EP

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The elevation of the higher reservoir for the flow rate of 10 ft3/min.

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Chapter 8, Problem 77P

Chapter 8, Problem 79P

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Fluid Mechanics Fundamentals And Applications

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The elevation of the higher reservoir for the flow rate of 10 ft 3 / min .

Solution Summary: The author explains the elevation of the higher reservoir for the flow rate of 12.655ft and the Reynolds number.

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The elevation of the higher reservoir for the flow rate of 10 ft3/min.

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