A certain part of cast iron piping of a water distribution system involves a parallel section. both parallel pipes have a diameter of 30 cm, and the flow is fully turbulent. one of the branches (pipe

a. is 1500 m long, while the other branch (pipe

b. is 2650 m long. if the flow rate through pipe a is 0.4 m3/s, determine the flow rate through pipe

b. disregard minor losses and assume the water temperature to be 15°c. is the flow turbulent or laminar

Question

Bradley Novak

Physics

6 November, 11:39

A certain part of cast iron piping of a water distribution system involves a parallel section. both parallel pipes have a diameter of 30 cm, and the flow is fully turbulent. one of the branches (pipe

a. is 1500 m long, while the other branch (pipe

b. is 2650 m long. if the flow rate through pipe a is 0.4 m3/s, determine the flow rate through pipe

b. disregard minor losses and assume the water temperature to be 15°c. is the flow turbulent or laminar

+5

Answers (1)

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Mira Dougherty · Answer 1

Flow rate through pipe a is 0.4 m3/s Parallel pipes have a diameter D = 30 cm = > r = 15 cm = 0.15 m Length of Pipe a = 1000m Length of Pipe b = 2650m Temparature = 15 degrees Va = V / A = (0.4m3/s) / (3.14 (0.15m) ^2) = 5.66 m/s h = (f (LV^2)) / D2g (fa (LaVa^2)) / Da2g = (fb (LbVb^2)) / Da2g and Da = Db; fa = fb LaVa^2 = LbVb^2 = > La/Lb = Vb^2/Va^2 Vd^2 = Va^2 (La/Lb) = > Vb = Va (La/Lb) ^ (1/2) Vb = 5.66 (1000/2650) ^ (1/2) = > 5.66 x 0.6143 = 3.4769 m/s Vb = 3.4769 m/s V = AVb = 3.14 (0.15) ^2 x 3.4769 m/s = 0.245 m^3/s