Question 3: Water is to be pumped from one large, open tank to a second large,...
please solve it step by step with details thank you!!!!! Water is to be pumped from one large, open tank to a second large open tank as shown in Figure 1. The pipe diameter throughout is 15 cm and the total length of the pipe between the pipe entrance and exit is 60 m. Minor loss coefficient for the entrance, exit and the elbow are shown, and the Darcy friction factor for the pipe can be assumed constant and equal...
Two large tanks are open to the atmosphere at the top. Water s pumped from the lower tank to the upper tank through a single PVC (smooth) pipe. The relationship between Velocity in the pipe (ft/s) and the pump head (ft) is given. There are no significant minor losses. What is the flow rate, Q (cfs), in the pipe? Pump Coefficients 1.30 sec /ft Pipe Length Inside Pipe Diameter 300 ft 0.250 feet a = 3.24 sec b 107.00 ft...
2 The industrial coolant with density of 900 kg/m' is to be pumped from large open processing tank to a large open storage tank. The pipe diameter throughout the length of the pipe is 0.153 m and the total length of the pipe between the pipe entrance and pipe exit is 200 m. The Minor loss coefficients for the entrance and exit effects are 1 and 1.5. The experimental values of minor loss coefficients due to the elbows are calculated...
The industrial coolant with density of 900 kg/m' is to be pumped from large open processing tank to a large open storage tank. The pipe diameter throughout the length of the pipe is 0.153 m and the total length of the pipe between the pipe entrance and pipe exit is 200 m. The Minor loss coefficients for the entrance and exit effects are 1 and 1.5. The experimental values of minor loss coefficients due to the elbows are calculated as...
10. Problem 12.38 from the textbook (Statement: In a chemical processing plant a liquid is pumped from an open tank, through a 0.1-m-diameter vertical pipe, and into another open tank as shown in the figure (a). A valve is located in the pipe, and the minor loss coefficient for the valve as a function of the valve setting is shown in figure (b). The pump head capacity relationship is given by the equation ha =52.0-1.01x10?Q? with ha in meters when...
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...
RI 1111 2:54 PM ぐ Hw 7.pdf (40 pts) Water is pumped from the large tank shown in the figure. The loss in the piping is equal to 2v2 and the pump power is lipumpー40,000 Q-400,00023, where lipump is in Watts and Q is in m2/s a.) Determine the flowrate b.) Determine the pressure increase across the pump c.) Determine the flowrate if the loss was the same, but the pump is not installed. 3. 4 m 0 Pump Pipe...
3) As shown in the figure below, water (o 1.94 slugs/ ft') is pumped from a large tank (1) at a rate of 3 ft'/s through a main supply line to the top of an aeration column (2), which is a large free surface open to the atmosphere. The head loss through the supply line is 4 ft. In the acration column, the water is entrained with air as it moves downward via gravity through the column and exits to...
4. A fire truck pump system is shown. Water is pumped from a reservoir to a surge tank and then out an exit pipe and nozzle to shoot a water jet vertically into the air. The water surface in the surge tank is exposed to air pressure at P 827 371 N/m2 (gage). The pump efficiency is assumed to e 80% a) Calculate a numerical valuc for the water velocity at the pipe exit at station 4. b) Calculate a...
ater to be pumped from a lake to a storage tank in a ranch. Water temperature is 60 F.The clevation of the pipe exit that will feed the tank is 50 ft higher than the lake water surface. It is required that a 4-hour pumping time will feed the storage tank by 1,200 gallons of water. While operating at the required flow rate, the pump will generate a head of 60 n. Coeflicients of minor loss due to filtering, fittings,...