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2. Water at 60°F is pumped from a reservoir to the top of a mountain through...
The Water at pipe discharges above a tank on the mountain at an elevation that is 60°F is pumped from a reservoir at sea level to the top of a 4000 ft above the e pipeline itself consists of schedule 80, wrought iron/steel pipe. The pipe is 5" (sch 80) section of pipe is 5000 ft long containing 20 standard 90° elbows and 20 standard 45° elbows. If you have a 20,000 hp pump and motor that is driving it...
Water is pumped from reservoir A to B. The water-surface elevations in the reservoirs A and B WCalier enange is 4.1 kPa. 7.11 and 318 m, respectively. The suction line is 9.5 cm, which is short enough that the are 300 m head losses may be neglected. The pressure pipe is 400 m long and 79 cm in diameter. There are three 90° and two 45° bends. Calculate the annual power bill for pumping 0.30 m?/s. Unit power cost is...
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)....
11. Water is pumped from a reservoir at a lower elevation to an elevated reservoir by using a suitable pump. The lower reservoir water level have an atmospheric pressure head of I and is at an elevation of 20 ft. while the intake/suction side of the pump is at an elevation of 25 ft. The water is pumped at a rate of 425 gpm in a 6" diameter pipe, friction factor () is 0.017 and the length of pipe is...
Water is pumped from a reservoir to another reservoir whose surface elevations are 1366 feet and 1657 feet, respectively. The connecting pipeline is 4 miles long and 10 inches in diameter. If the pressure during pumping is 65 psi at midlength of the pipe at elevation 1511.5 feet, what is the power? Assume the coefficient of friction is 0.02.
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...
2. Water is pumped from a reservoir at rate of 2 f?/sec. from a reservoir 20 ft above the pump to a free discharge at 90 above the pump as shown. The pressure at intake to pump is 5 psig and pressure at discharge side of the pump is 50 psig. All pipes are commercial steel and 6 inches in diameter. Find (a) the head supplied by the pump. (b) the total head loss between the pump and the point...
NO QUESTIONS DURING T Water is to be pumped from a reservoir (ZA30 /s- to another reservoir at a higher elevati rate of elevation (Zn THE EXAM! n) through a long pipe, as shown in the figure at a volume ow olume flow rate has been calculated and is 11 m he head loss in the pipe at this usefuf pump ) Demostrate that wh en a pump moves a fluid from one reservoir to ano e elevation difference between...
Water, with density of 1000 kg/m3 and kinematic viscosity of 1.0 x 10- m2/s, is pumped through a total length of 60 m of pipe from a lower reservoir to a higher reservoir. The inner diameter of the pipe is 30 cm. Both reservoirs are open to the atmosphere, and the water surface of the higher reservoir is 10 m above that of the lower reservoir. The entrance from the lower reservoir to the pipe is sharp-edged, and along the...
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...