Prob-2 If the flow of 0.10 m3/s of water is to be maintained in the system...
Prob-2 If the flow of 0.10 m/s of water is to be maintained in the system shown, what power must be added to the water by the pump? The pipe is made of steel and is 20 cm in diameter. Use table 10.4 and A5 for ks =? and V =? Elevation = 13 m Elevation = 10 m Water T= 10°C 40 m 40 m
please show clear steps solution.
Prob-2 If the flow of 0.10 m/s of water is to be maintained in the system shown, what power must be added to the water by the pump? The pipe is made of steel and is 20 cm in diameter. Use table 10.4 and AS for ks ? and ? Elevation = 13 m Elevation = 10 m Water T-10°C 40 m 40 m Table 104 EQUIVALENT SAND-GRAIN ROUGHNESS, FOR VARIOUS PIPE MATERIALS Boundary Material...
Prob-2 What power must be supplied by the pump to the flow if water (T -20°C) is pumped through the 300 mm steel pipe from the lower tank to the upper one at a rate of 0.314 m?s? Situation: Properties: Water is pumped through a steel pipe from one tank to another From Table 10.6 K-003: Ks-035 Kg - 10. D-300mm. L-140m. Q=0.314 m/s. Water 20°C). Table A = 10-m. 81 - 200 m. = 235m. Elbow radius is 300...
Task 1: You were asked to check up the status of the water system. Water at 24 °C is to be pumped from a Lower reservoir with 100 m elevation to another reservoir at a higher elevation 112 m through 150-m-long pipe as shown in Figure (1). The pipe is made of steel, and the diameter of the pipe is equal to 30 cm. Water is to be pumped by a 72% efficient motor-pump combination that draws 33 A of...
you can skip task 1 (3) because its a code in
matlab.
Task 1: You were asked to check up the status of the water system. Water at 24 °C is to be pumped from a Lower reservoir with 100 m elevation to another reservoir at a higher elevation 112 m through 150-m-long pipe as shown in Figure (1). The pipe is made of steel, and the diameter ofthe pipe is equal to 30 cm water is to be pumped...
What power must be supplied by the pump to the flow if water (T = 20°C) is pumped through the 300 mm steel pipe from the lower tank to the upper one at a rate of 0.314 m/s? Situation: Properties: Water is pumped through a steel pipe from one tank to another. From Table 10.5: K. -0,03; Ko - 0.35; Kg - 1.0. D - 300 mm, L - 140 m, Q -0.314 m/s. Water (20°C), Table A.5: v =...
Problem 10 7.50 Water (10°C) is flowing at a rate of 0.35 m/s, and it is as- sumed that h1 = 2 V"/2g from the reservoir to the gage, where V is the velocity in the 30-cm pipe. What power must the pump supply? Assume a-1.0 at all locations P-100 kPa Elevation10m D-30 cm 3853939333Elevation 6 m 40 cm diameter Water T-10-c Elevation-2m
8-C) As shown below water is pumped and sprayed through a nozzle into the atmosphere at 20 m/s at an elevation 10 m above the reservoir surface. The mass flow rate is 40 kg/s and the volumetric flow rate is 0.040 m3/s. The large diameter inlet pipe total length is 50 m. The pump effidency is 65%. The longer smaller diameter pipe leaving the pump is 200 m in total length. The pipes have different diameters as indicated below. The...
7.14 The pump in Fig. 7.20 delivers water from the lower to the upper reservoir at the rate of 0.057 m3/s. The energy loss between the suction pipe inlet and the pump is 1.83 m and that between the pump outlet and the upper reservoir is 3.66 m. Both pipes are 6-in Schedule 40 steel pipe. Calculate (a) the pressure at the pump inlet, (b) the pressure at the pump outlet, (c) the total head on the pump, and (d)...
lunzontal pipe and pump system in the following figure discharges 0.01583 m3/s. The gage pressure iust before the pressure is 400 The m/s2 losses between 20°C water at 57 m3/h 0 kPa and just after the pump the gage a. The pump inlet diameter is 9 cm and the outlet diameter is 3 em. Let g-9.81 pump is 12 o Pwater9 kg/m, Hwate0.001002 kgm-s) and Pat the two pressure points and the pump. But consider frictional losses at the 9-cm...