What horsepower must be supplied to the water to pump 2.5 cfs at 68°F from the...
2. (20 points) The pump shown in the figure pumps 1.5ft/s of water from the reservoir with H-50ft. The head loss associated with this flow is 10ft. Specific weight of water y equals 62.41b/ft';g 32.2ft/s2. The pipe diameter is constant and equals D' C2 iches) . Compute the power in horsepower necessary to run the pump. . Sketch the energy and the hydraulic grade line. free jet
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 =...
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...
2. Water is transferred at a rate of 2.1 cfs from an upper reservoir to a lower reservoir by a concrete pipe 3000 ft long. The difference in water level is 60 ft. (1) Determine the size of pipe for a water temperature of 60oF using the Darcy- Weisbach equation; (2) Determine the size of pipe for a water temperature of 60°F using the Hazen-Williams formula.
Kerosene at 68°F is pumped from a reservoir vented to the atmosphere and delivers it to point B at a low rate of 1,600 gpm. If the pressures at points A and B are measured to be 5 psig and 75 psig, respectively, calculate 2. a. the head loss, hr.(ft) caused by pipe friction (Ggnoring minor losses) in the discharge piping between the pump and Point B, and the hydraulic horsepower delivered by the pump to the water, b. (hp)....
Please help asap with this one
In the system below, water is being pumped from the lower reservoir to the upper reservoir. The pipe diameter, pipe length, flowrate and total system head losses are shown on the sketch. Determine the head added by the pump. Assume the losses are uniform along the length of the pipe. Sketch the approx energy grade line. Elev. 132.0 ft Frictional head losses in the pipe are 27.36 ft. Water -Elev. 97.5 Ft Water Q...
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)...
A 60 horsepower pump is used to move water from a large reservoir to another at a higher elevation. Measured data show that the head loss from station 1 to 2 can be calculated from hloss= cV2 where V is the fluid velocity in the pipeline and c is a constant Calculate the volumetric flow rate, Q, if c=2 s2/ft, d=10 in., h=50 ft , and npump=0.85 h Pump
A 60 horsepower pump is used to move water from a...
A pump delivers water at 200C between a reservoir and a water tank that is 75[ft] higher than the reservoir. The suction side of the system consists of a cast iron pipe of 1[ft]diameter with a strainer (Ks= 2.5) and four 90-degree bends at R/D= 5. The discharge side of the system includes a 1000[ft] long commercial steel pipe with 12” diameter followed by a gate valve. The NPSH required for the pump is 10[ft], and the design discharge is...
Problem 1: In the reservoir-pipe system below, water is supplied from reservoir A to reservoir B with a flowrate of 50 L/S. In the system, a pump with an efficiency value of n=0.70 is used. Length of the pipeline is L=5000m, pipe diameter is D=200 mm and the elevation difference between reservoirs is 40 m. According to this, a) Determine the required pump head (Hp). b) Find the required nominal pump power. c) Draw the relative energy grade line of...