Explanation The flow rate for the water is 5 gal / s , the rotational speed of the sprinkler is 180 rpm , the diameter of each jet is 0.5 in and the normal distance between the axis of rotation and center of each nozzle is 2 ft . Write the expression for the mass flow rate of water through the nozzle. m ˙ n = m ˙ 2 ...... (I) Here the total mass flow rate is m ˙ . Write the expression for the velocity of the jet. V j = m ˙ n A ...... (II) Here, the area of the jet is A . Write the expression for the angular velocity of the sprinkler. ω = 2 π n ...... (III) Here, the rotational speed of the sprinkler is ω . Write the expression for velocity of water through nozzle. V n = r ω ...... (IV) Here, the normal distance between the axis of rotation and center of each nozzle is r . Write the expression for the relative velocity of the water jet. V r = V j − V n ...... (V) Write the expression for the moment acting on the head. M ˙ s h a f t = r m ˙ t V r ...... (VI Write the expression for the area of the jet. A = π 4 d 2 ...... (VII) Here, the diameter of the jet is d . Write the expression for the total mass. m ˙ t = ρ V ˙ ...... (VIII) Here, the density of water is ρ . Calculation: Substitute 5 gal / s for m ˙ in Equation (I). m ˙ n = 5 gal / s 2 = 2.5 gal / s Substitute 0.5 in for d in Equation (VII). A = π 4 ( 0.5 in ) 2 = π 4 ( 0.25 in 2 ( 1 ft 2 144 in 2 ) ) = 1.36 × 10 − 3 ft 2 Substitute 2.5 gal / s for m ˙ n and 1.36 × 10 − 3 ft 2 for A in Equation (II). V j = 2.5 gal / s 1.36 × 10 − 3 ft 2 = 2.5 gal / s 1.36 × 10 − 3 ft 2 ( 1 ft 3 / s 7.48052 gal / s ) = 245.09 ft / s Substitute 180 rpm for n in Equation (III)

Fluid Mechanics: Fundamentals and Applications

4th Edition

ISBN: 9781259696534

Author: Yunus A. Cengel Dr., John M. Cimbala

Publisher: McGraw-Hill Education

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Chapter 6, Problem 53EP

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Fluid Mechanics: Fundamentals and Applications

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The moment acting on the head.

Solution Summary: The author describes the moment acting on the head: the flow rate, the rotational speed, and the diameter of each jet.

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