A centrifugal pump operating under steady flow conditions delivers 2,270 kg/min of water from an initial...
A centrifugal pump operating under steady flow conditions delivers 2,270 kg/min of water from an initial pressure of 82,740 Pa to a final pressure of 275,800 Pa. The diameter of the inlet pipe to the pump is 15.24 cm and the diameter of the discharge pipe is 10.16 cm. What is the work?
Homework Answers
In this question mass flow rate is given hence work done per unit time can be found.
and The total head difference will be due to pressure difference and the velocity difference together as explained below .
thank you
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A centrifugal pump operating under steady flow
conditions delivers 2,270 kg/min of water from an initial...
A centrifugal pump test yields the following data: Pump Head Flow (m)(L/min) 30 25 20 40 The pump...
A centrifugal pump test yields the following data: Pump Head Flow (m)(L/min) 30 25 20 40 The pump curve can be approximated by a parabola. This pump draws water from a large reservoir. The discharge of the pump feeds 150 m of 1.5 cm inside diameter pipe and then 225 m of 3 cm inside diameter pipe.. The two pipes both have a roughness of 0.5 mm The 3 cm pipe discharges to atmosphere a distance 40 m below the...
1. A pump steadily delivers 13.7 kg/s of water at the conditions given below. Calculate the...
1. A pump steadily delivers 13.7 kg/s of water at the conditions given below. Calculate the pump power (hp). There is no heat transfer from the pump to the surroundings (i.e., adiabatic conditions). Pump Inlet Temperature = 20oC Pump Inlet Pressure = 182 kPa Pump Inlet Diameter = 11.1 cm Pump Inlet Elevation = 20 m Pump Exit Temperature = 20oC Pump Exit Pressure = 601 kPa Pump Exit Diameter = 7.8 cm Pump Exit Elevation = 20 m Answer...
3_12: A pump operating at steady state draws in 60 kg of liquid water per second...
3_12: A pump operating at steady state draws in 60 kg of liquid water per second at 1 bar, 15 °C and delivers the water to a location whose elevation is 10 m above that of the inlet. The exit pressure is 4 bar and the temperature remains constant. The inlet has a diameter of 20 cm and the exit has a diameter of 10 cm. The pump operates adiabatic and experiences no internal irreversibility. If pumps are sold in...
QUESTION 5 A pump steadily delivers 17.2 kg/s of water at the conditions given below. Calculate...
QUESTION 5 A pump steadily delivers 17.2 kg/s of water at the conditions given below. Calculate the pump power (kW). There is no heat transfer from the pump to the surroundings (i.e., adiabatic conditions). Pump Inlet Temperature = 20°C Pump Inlet Pressure - 192 kPa Pump Inlet Diameter = 13.3 cm Pump Inlet Elevation = 22 m Pump Exit Temperature = 20°C Pump Exit Pressure - 419 kPa Pump Exit Diameter = 3.9 cm Pump Exit Elevation = 41.4 m...
THERMO Question 1 A pump steadily delivers 13.7 kg/s of water at the conditions given below....
THERMO Question 1 A pump steadily delivers 13.7 kg/s of water at the conditions given below. Calculate the pump power (hp). There is no heat transfer from the pump to the surroundings (i.e., adiabatic conditions). Pump Inlet Temperature = 20oC Pump Inlet Pressure = 170 kPa Pump Inlet Diameter = 11.4 cm Pump Inlet Elevation = 20 m Pump Exit Temperature = 20oC Pump Exit Pressure = 581 kPa Pump Exit Diameter = 5 cm Pump Exit Elevation = 20...
A centrifugal pump takes water from the bottom of a supply tank and delivers it into...
A centrifugal pump takes water from the bottom of a supply tank and delivers it into the bottom of another tank. The water level in the discharge tank is 50m above the level in the supply tank. The line between the tanks is 200m of 4-in commercial steel pipe. The ow rate is 1200 l/min. In the line, there two gate valves, four standard tees and four elbows. What is the energy cost of the running this pump for one...
6.15 The pump shown in the figure delivers water at 59℉ at a rate of 550...
6.15 The pump shown in the figure delivers water at 59℉ at a rate of 550 gal/min. The inlet pipe has an inside diameter of 5.95 in. and it is 10 ft long. The inlet pipe is submerged 6 ft into the water and is vertical. Estimate the pressure inside the pipe at the pump inlet. 6. Pl
2. A pump delivers 4 m3/min of water from 110 kPa to 350 kPa. Both pipe's...
2. A pump delivers 4 m3/min of water from 110 kPa to 350 kPa. Both pipe's gages are on the same level. The inlet and outlet pipe diameters are 16 cm and 13 cm, respectively. The inlet and outlet temperature are both 25°C and mass density of water is 997 kg/m². Calculate the pump work in kW.
A centrifugal pump is pumping water at a rate of 35.55 gal/min. The pressures at the...
A centrifugal pump is pumping water at a rate of 35.55 gal/min. The pressures at the inlet, and outlet of the pumps are -2.26 psig and 7.715 psig respectively. The outlet pipe is placed 10 inches higher than the inlet pipe. The inlet and outlet diameters of the pipe are 1.85 in and 1.6 in respectively and the torque produced by the pump rotating at 1593 rpm is 3.172 ft.Ibf. Calculate the following in SI units: a) Total head b)...
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 t...
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 centrifugal pump test yields the following data: Pump Head Flow (m)(L/min) 30 25 20 40 The pump curve can be approximated by a parabola. This pump draws water from a large reservoir. The discharge of the pump feeds 150 m of 1.5 cm inside diameter pipe and then 225 m of 3 cm inside diameter pipe.. The two pipes both have a roughness of 0.5 mm The 3 cm pipe discharges to atmosphere a distance 40 m below the...
3_12: A pump operating at steady state draws in 60 kg of liquid water per second at 1 bar, 15 °C and delivers the water to a location whose elevation is 10 m above that of the inlet. The exit pressure is 4 bar and the temperature remains constant. The inlet has a diameter of 20 cm and the exit has a diameter of 10 cm. The pump operates adiabatic and experiences no internal irreversibility. If pumps are sold in...
QUESTION 5 A pump steadily delivers 17.2 kg/s of water at the conditions given below. Calculate the pump power (kW). There is no heat transfer from the pump to the surroundings (i.e., adiabatic conditions). Pump Inlet Temperature = 20°C Pump Inlet Pressure - 192 kPa Pump Inlet Diameter = 13.3 cm Pump Inlet Elevation = 22 m Pump Exit Temperature = 20°C Pump Exit Pressure - 419 kPa Pump Exit Diameter = 3.9 cm Pump Exit Elevation = 41.4 m...
6.15 The pump shown in the figure delivers water at 59℉ at a rate of 550 gal/min. The inlet pipe has an inside diameter of 5.95 in. and it is 10 ft long. The inlet pipe is submerged 6 ft into the water and is vertical. Estimate the pressure inside the pipe at the pump inlet. 6. Pl
2. A pump delivers 4 m3/min of water from 110 kPa to 350 kPa. Both pipe's gages are on the same level. The inlet and outlet pipe diameters are 16 cm and 13 cm, respectively. The inlet and outlet temperature are both 25°C and mass density of water is 997 kg/m². Calculate the pump work in kW.
A centrifugal pump is pumping water at a rate of 35.55 gal/min. The pressures at the inlet, and outlet of the pumps are -2.26 psig and 7.715 psig respectively. The outlet pipe is placed 10 inches higher than the inlet pipe. The inlet and outlet diameters of the pipe are 1.85 in and 1.6 in respectively and the torque produced by the pump rotating at 1593 rpm is 3.172 ft.Ibf. Calculate the following in SI units: a) Total head b)...
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)...
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