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5.53 A water siphon having a constant inside diameter of 3 in. is arranged as shown...
2. A water siphon having a constant inside diameter of 3 in is arranged as shown...
2. A water siphon having a constant inside diameter of 3 in is arranged as shown in figure Q.2. If the friction loss between A and B is 0.8 V2 / 2, where V is the velocity of flow in the siphon, determine the flow rate involved 4 ft 12 ft 4 ft Q.2
A water siphon having a constant inside diameter of 2 ¡n. is arranged as shown in...
A water siphon having a constant inside diameter of 2 ¡n. is arranged as shown in the figure below. If the friction loss between A and B is 0.8V2/2 where Vis the velocity of flow in the siphon, determine the flowrate involved. 3ft 9ft 3ft Q 0.0829 f3/s the tolerance is +/-3%
2. From the textbook 5.99. (Statement: A siphon is used to draw water at 70°F from...
2. From the textbook 5.99. (Statement: A siphon is used to draw water at 70°F from a large container as indicated in the figure. The inside diameter of the siphon line is 1 in. and the pipe centerline rises 3 ft above the essentially constant water level in the tank. Show that by varying the length of the siphon below the water level, h, the rate of flow through the siphon can be changed. Assuming frictionless flow, determine the maximum...
2-in.-diameter hose 2 ft (3) FIG. P3 Water is siphoned from the tank shown in Fig....
2-in.-diameter hose 2 ft (3) FIG. P3 Water is siphoned from the tank shown in Fig. P3. Determine (a) the flowrate from the tank, and (b) the pressure at point (1), (2) and (3). (c) The current maximum height of the hose is 2 ft above the water surface. What can the maximum height be without having any cavitation. Take the water temperature to be 60°F.
Water is released from a tank with a constant depth of 30 feet as shown in...
Water is released from a tank with a constant depth of 30 feet
as shown in the figure. The entrance and exit loss coefficients are
0.3 and 0.5. The outfall pipe has a diameter meter of 5 ft and a
length of 100 ft. The pipe wall is a rough concrete surface with a
roughness height of 0.05 ft. Considering both minor and major
losses this system, determine the flowrate in the pipe?
100 feet 15 ft e-0.05 ft D-5feet...
1. Water enters the constant 130-mm inside-diameter tubes of a boiler at 7 MPa and 65°C...
1. Water enters the constant 130-mm inside-diameter tubes of a boiler at 7 MPa and 65°C and leaves the tubes at 6 MPa and 450°C with a velocity of 80 m/s. Calculate the velocity of the water at the tube inlet and the inlet volume flow rate. [5-14] 2. Air enters a nozzle steadily at 50 psia, 140°F, and 150 ft/s and leaves at 14.7 psia and 900 ft/s. The heat loss from the nozzle is estimated to be 6.5...
Example #5: GIVEN The pump shown in Fig. E5 25a adds 10 horsepower to the water...
Example #5: GIVEN The pump shown in Fig. E5 25a adds 10 horsepower to the water as it pumps water from the lower lake to the upper lake. The elevation difference between the lake surfaces is 30 ft and the head loss is 15 ft. Section (2) FIND Determine (a) the flowrate and Control volume (b) the power loss associated with this flow. 30 ft Flow Section (1) Pump Flow
Water is siphoned from the large tank shown below. Flow is steady and viscous effects are...
Water is siphoned from the large tank shown below. Flow is steady and viscous effects are negligible. a) Determine the flowrate from the tank; b) Determine the pressure at points 1, 2 and 3; c) Where is the critical point for cavitation? 2-in.-diameter hose 2 ft |(3) 3 ft 8 ft
(25pts) The 0.5in.-diameter hose shown in Figure can withstand a maximum pressure of 300 psi without...
(25pts) The 0.5in.-diameter hose shown in Figure can withstand a maximum pressure of 300 psi without rupturing. Determine the maximum length, 1, allowed if the friction factor is 0.022 and the flowrate is 0.020 f/s. Neglect minor losses Nozzle tip diameter - 0.30 in. y = 62.2 lb/ft3 D-0.50 in. P2 = 0 Water 10 ft 3 ft Pump
8. (15 points) Water flows through a 3-in diameter pipe with a velocity of 25 ft/s...
8. (15 points) Water flows through a 3-in diameter pipe with a velocity of 25 ft/s as shown in the figure below. The relative roughness of the pipe is 0.0004 ft, and the loss coefficient for the exit is 1.0. Values for the liquid height in the tank (z) and the pipe length between the standpipe and tank (L) are 6 ft and 10 ft, respectively. Determine the height, h (ft), to which the water rises in the standpipe. P...
2. A water siphon having a constant inside diameter of 3 in is arranged as shown in figure Q.2. If the friction loss between A and B is 0.8 V2 / 2, where V is the velocity of flow in the siphon, determine the flow rate involved 4 ft 12 ft 4 ft Q.2
A water siphon having a constant inside diameter of 2 ¡n. is arranged as shown in the figure below. If the friction loss between A and B is 0.8V2/2 where Vis the velocity of flow in the siphon, determine the flowrate involved. 3ft 9ft 3ft Q 0.0829 f3/s the tolerance is +/-3%
2. From the textbook 5.99. (Statement: A siphon is used to draw water at 70°F from a large container as indicated in the figure. The inside diameter of the siphon line is 1 in. and the pipe centerline rises 3 ft above the essentially constant water level in the tank. Show that by varying the length of the siphon below the water level, h, the rate of flow through the siphon can be changed. Assuming frictionless flow, determine the maximum...
2-in.-diameter hose 2 ft (3) FIG. P3 Water is siphoned from the tank shown in Fig. P3. Determine (a) the flowrate from the tank, and (b) the pressure at point (1), (2) and (3). (c) The current maximum height of the hose is 2 ft above the water surface. What can the maximum height be without having any cavitation. Take the water temperature to be 60°F.
Water is released from a tank with a constant depth of 30 feet
as shown in the figure. The entrance and exit loss coefficients are
0.3 and 0.5. The outfall pipe has a diameter meter of 5 ft and a
length of 100 ft. The pipe wall is a rough concrete surface with a
roughness height of 0.05 ft. Considering both minor and major
losses this system, determine the flowrate in the pipe?
100 feet 15 ft e-0.05 ft D-5feet...
1. Water enters the constant 130-mm inside-diameter tubes of a boiler at 7 MPa and 65°C and leaves the tubes at 6 MPa and 450°C with a velocity of 80 m/s. Calculate the velocity of the water at the tube inlet and the inlet volume flow rate. [5-14] 2. Air enters a nozzle steadily at 50 psia, 140°F, and 150 ft/s and leaves at 14.7 psia and 900 ft/s. The heat loss from the nozzle is estimated to be 6.5...
Example #5: GIVEN The pump shown in Fig. E5 25a adds 10 horsepower to the water as it pumps water from the lower lake to the upper lake. The elevation difference between the lake surfaces is 30 ft and the head loss is 15 ft. Section (2) FIND Determine (a) the flowrate and Control volume (b) the power loss associated with this flow. 30 ft Flow Section (1) Pump Flow
Water is siphoned from the large tank shown below. Flow is steady and viscous effects are negligible. a) Determine the flowrate from the tank; b) Determine the pressure at points 1, 2 and 3; c) Where is the critical point for cavitation? 2-in.-diameter hose 2 ft |(3) 3 ft 8 ft
(25pts) The 0.5in.-diameter hose shown in Figure can withstand a maximum pressure of 300 psi without rupturing. Determine the maximum length, 1, allowed if the friction factor is 0.022 and the flowrate is 0.020 f/s. Neglect minor losses Nozzle tip diameter - 0.30 in. y = 62.2 lb/ft3 D-0.50 in. P2 = 0 Water 10 ft 3 ft Pump
8. (15 points) Water flows through a 3-in diameter pipe with a velocity of 25 ft/s as shown in the figure below. The relative roughness of the pipe is 0.0004 ft, and the loss coefficient for the exit is 1.0. Values for the liquid height in the tank (z) and the pipe length between the standpipe and tank (L) are 6 ft and 10 ft, respectively. Determine the height, h (ft), to which the water rises in the standpipe. P...
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