3. A pump draws water from a 20 cm diam suction pipe and discharges through a 15 cm diam pipe in which the velocity is 3.60 m/s. The pressure is - 34.465 kPa at A in the suction pipe. The 15 cm diam pipe discharges horizontally into air at C. To what height h above B can the water be raised if B is 1.8 m. above A and 20 hp is delivered to the pump? Assume that the pump operates at 80 % efficiency and that the frictional loss in the pipe between A and C is 3 m. Given: Suction pipe Discharge pipe 1.80 m pump Datum line DA = 20 cm = 0.20 m DB = Dc = 15 cm 0.15 m PA = - 34.465 KPa (suction pressure) VB = Vc = 3.6 m/s Pc = 0 (atmospheric pressure) BHP = 20 hp Pump efficiency = 80% HL(A-C) = 3 m %3D %3D Determine the inclination angle at point C for the water stream to reach a range of 10 m. Also, calculate the maximum height that the water can go from the selected datum plane.

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45-- Minutes. I already bought bartleby I hope u can help me to answer this activity of mine.GO GO GO. 1.1.13.

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 Hydraulics>>Civil Engineering

 

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45-- Minutes. I already bought bartleby I hope u can help me to answer this activity of mine.GO GO GO. 1.1.13. I will give UPVOTE

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3. A pump draws water from a 20 cm diam suction pipe and discharges through a 15 cm diam pipe in which the velocity is 3.60 m/s. The pressure is -34.465 kPa at A in the suction pipe. The 15 cm diam pipe discharges horizontally into air at C. To what height h above B can the water be raised if B is 1.8 m. above A and 20 hp is delivered to the pump? Assume that the pump operates at 80 % efficiency and that the frictional loss in the pipe between A and C is 3 m. Given: Suction pipe Discharge pipe 1.80 m A pump Datum line DA = 20 cm = 0.20 m DB = Dc = 15 cm 0.15 m PA = - 34.465 KPa (suction pressure) VB = Vc 3.6 m/s Pc 0 (atmospheric pressure) BHP = 20 hp Pump efficiency 80% HL(A-C) = 3 m Determine the inclination angle at point C for the water stream to reach a range of 10 m. Also, calculate the maximum height that the water can go from the selected datum plane.