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CE 3305 Exam1 Fall 2017 4. The Figure below is a part of piping system where...
4. The discharge pressure gauge reading is 5 lb/in2 (psi) for the pumping system shown in the ske...
4. The discharge pressure gauge reading is 5 lb/in2 (psi) for the pumping system shown in the sketch below, with the outlet nozzle discharging a 2-inch diameter stream of water directly to the atmosphere. The gauge pressure at the pump suction inlet at the point of incipient cavitation is (-2,071.12) lb/ft, i.e., for vapor pressure of water at 68° F of 50.54 lb/ft2 absolute, and standard atmospheric pressure 30 in Hg. Friction losses in the suction piping from the reservoir...
) 25 points - Water flows in a piping system a section of which is shown...
) 25 points - Water flows in a piping system a section of which is shown below.Pipe is 30 mm ID commercial steel pipe. Velocity of flow is 1.6 m/s and is constant throughout. Pressure at Pt is 200 kPa. All the valves are fully open gate valves, all the elbows are regular 90° threaded. For water, p:1000 kg/m3, 0.00108 N-s/m2. Other necessary data is given on the diagram. Assume the flow is incompressible and steady. Determine the volume flow...
Problem 3 A pipeline delivers water from Reservoir 1 to Reservoir 2 as shown in the following figure. The water levels at Reservoirs 1 and 2 are 50 ft and 20 ft, respectively. A globe valve is in...
Problem 3 A pipeline delivers water from Reservoir 1 to Reservoir 2 as shown in the following figure. The water levels at Reservoirs 1 and 2 are 50 ft and 20 ft, respectively. A globe valve is installed in the pipeline with a minor head loss coefficient k 10. The pipe from Reservoir 1 to the globe valve is 1000 ft long and 6 inches in diameter. The pipe from the globe valve to Reservoir 2 is also 1000 ft...
4 A U-Tube manometer is connected to a closed tank, shown below, containing oil a density...
4 A U-Tube manometer is connected to a closed tank, shown below, containing oil a density of 800 kg/m², the pressure of the air above the oil being 6000 Pa, if the pressure at point A is 20 kPa and the manometer fluid has a relative density of 5, Assume x=0.6m. determine the following i. The depth of oil, Z ii. The differential reading, Z2 on the manometer. (5marks) Z2 Z A OIL 5 Explain about the steady and unsteady...
The figure below shows a condenser/cooling tower pipe system needed to remove heat from a water...
The figure below shows a condenser/cooling tower pipe system needed to remove heat from a water cooled refrigeration condenser and reject the heat to the atmosphere. The amount of heat to be rejected to the atmosphere is 480,000 Btu/hr. The water enters the condenser at 85"F, and the temperature rise of the water through the condenser is 10°F. The total length of the piping in the system is 60 ft. Fittings are as shown. Assume bends to be as shown...
A pump transports water from Tank 1 to Tank 2 through a constant-diameter piping system as...
A pump transports water from Tank 1 to Tank 2 through a constant-diameter piping system as shown below (not to scale). The flow rate is controlled by two gate valves, the gate valve I controls the main pipeline, while the gate valve II controls the loop line from T-joint A to T-joint B. All pipes are galvanized steel pipe of diameter D = 4 in. It has a total length of Li2= 620 ft from tank 1 to tank 2....
Problem #5 The figure below shows a submersible pump being used to circulate 60L/min of water...
Problem #5 The figure below shows a submersible pump being used to circulate 60L/min of water based coolant (sg=0.95) to the cutter of a milling machine. The outlet is through a 3/4" Sch 40 steel pipe. Assuming a total energy loss due to the piping is 3.0 N.m/N, calculate the total head developed by the pump and the power delivered to the coolant. Milling machine Flow . C Problem 14 The pipeling shown takes water from a reservoir and terminates...
Please answer question 4 and 5 QUESTION 4 the lower tank is 4 feet. There is a differential In the figure below, the di...
Please answer question 4 and 5
QUESTION 4 the lower tank is 4 feet. There is a differential In the figure below, the difference in elevation between the two storage tanks at a treatment plant is 108 feet. The head loss from the upper storage tank manomcter connccting the bluc pipc and the grccn pipc. There: no hcad-loss across the manometer. The liquid used for the differcntial manometer has a specific gravity of 3.2, and the reading, R, is 7-...
(a) A horizontal pipe of diameter 10 cm carries crude oil from A to C as...
(a) A horizontal pipe of diameter 10 cm carries crude oil from A
to C as shown in Figure 4. At a point B, midway between A and C,
oil leaks at a volume flow rate of QL . The pressure
drop per unit length along AB is 640 Pa/m and along BC is 600 Pa/m.
Determine the leakage flow rate QL . The density of oil
is 800 kg/m3 and its dynamic viscosity is 0.1 N.s/
m2 . You...
IH the figure the following values are given FCV DCV PRV Pump: Vo 6 in2: n...
IH the figure the following values are given FCV DCV PRV Pump: Vo 6 in2: n 0.92; m 0.95; Np-1,500 RPM Motor: Vo= 8 in": 0.90; n-:0.93 Oil: v=100 cS; SG= 0.90 FCV: Cv 0.2 gpm/psi2, Apcomp 120 psi Pipes (schedule 80): Pipe No. Length [ft] N a) Describe the component labeled FCV and the full Diameter [in] functionality of the system (10p). 1.25 10 b) Determine the angular velocity of the motor M for CW 1(left DCV envelope) and...
4. The discharge pressure gauge reading is 5 lb/in2 (psi) for the pumping system shown in the sketch below, with the outlet nozzle discharging a 2-inch diameter stream of water directly to the atmosphere. The gauge pressure at the pump suction inlet at the point of incipient cavitation is (-2,071.12) lb/ft, i.e., for vapor pressure of water at 68° F of 50.54 lb/ft2 absolute, and standard atmospheric pressure 30 in Hg. Friction losses in the suction piping from the reservoir...
) 25 points - Water flows in a piping system a section of which is shown below.Pipe is 30 mm ID commercial steel pipe. Velocity of flow is 1.6 m/s and is constant throughout. Pressure at Pt is 200 kPa. All the valves are fully open gate valves, all the elbows are regular 90° threaded. For water, p:1000 kg/m3, 0.00108 N-s/m2. Other necessary data is given on the diagram. Assume the flow is incompressible and steady. Determine the volume flow...
Problem 3 A pipeline delivers water from Reservoir 1 to Reservoir 2 as shown in the following figure. The water levels at Reservoirs 1 and 2 are 50 ft and 20 ft, respectively. A globe valve is installed in the pipeline with a minor head loss coefficient k 10. The pipe from Reservoir 1 to the globe valve is 1000 ft long and 6 inches in diameter. The pipe from the globe valve to Reservoir 2 is also 1000 ft...
4 A U-Tube manometer is connected to a closed tank, shown below, containing oil a density of 800 kg/m², the pressure of the air above the oil being 6000 Pa, if the pressure at point A is 20 kPa and the manometer fluid has a relative density of 5, Assume x=0.6m. determine the following i. The depth of oil, Z ii. The differential reading, Z2 on the manometer. (5marks) Z2 Z A OIL 5 Explain about the steady and unsteady...
The figure below shows a condenser/cooling tower pipe system needed to remove heat from a water cooled refrigeration condenser and reject the heat to the atmosphere. The amount of heat to be rejected to the atmosphere is 480,000 Btu/hr. The water enters the condenser at 85"F, and the temperature rise of the water through the condenser is 10°F. The total length of the piping in the system is 60 ft. Fittings are as shown. Assume bends to be as shown...
A pump transports water from Tank 1 to Tank 2 through a constant-diameter piping system as shown below (not to scale). The flow rate is controlled by two gate valves, the gate valve I controls the main pipeline, while the gate valve II controls the loop line from T-joint A to T-joint B. All pipes are galvanized steel pipe of diameter D = 4 in. It has a total length of Li2= 620 ft from tank 1 to tank 2....
Problem #5 The figure below shows a submersible pump being used to circulate 60L/min of water based coolant (sg=0.95) to the cutter of a milling machine. The outlet is through a 3/4" Sch 40 steel pipe. Assuming a total energy loss due to the piping is 3.0 N.m/N, calculate the total head developed by the pump and the power delivered to the coolant. Milling machine Flow . C Problem 14 The pipeling shown takes water from a reservoir and terminates...
Please answer question 4 and 5
QUESTION 4 the lower tank is 4 feet. There is a differential In the figure below, the difference in elevation between the two storage tanks at a treatment plant is 108 feet. The head loss from the upper storage tank manomcter connccting the bluc pipc and the grccn pipc. There: no hcad-loss across the manometer. The liquid used for the differcntial manometer has a specific gravity of 3.2, and the reading, R, is 7-...
(a) A horizontal pipe of diameter 10 cm carries crude oil from A
to C as shown in Figure 4. At a point B, midway between A and C,
oil leaks at a volume flow rate of QL . The pressure
drop per unit length along AB is 640 Pa/m and along BC is 600 Pa/m.
Determine the leakage flow rate QL . The density of oil
is 800 kg/m3 and its dynamic viscosity is 0.1 N.s/
m2 . You...
IH the figure the following values are given FCV DCV PRV Pump: Vo 6 in2: n 0.92; m 0.95; Np-1,500 RPM Motor: Vo= 8 in": 0.90; n-:0.93 Oil: v=100 cS; SG= 0.90 FCV: Cv 0.2 gpm/psi2, Apcomp 120 psi Pipes (schedule 80): Pipe No. Length [ft] N a) Describe the component labeled FCV and the full Diameter [in] functionality of the system (10p). 1.25 10 b) Determine the angular velocity of the motor M for CW 1(left DCV envelope) and...
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