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Problem 4. Water flows through a large tank having a diameter of 8 ft. The velocity...
8. (15 points) Water flows through a 2-in diameter pipe with a velocity of 15 ft/s...
8. (15 points) Water flows through a 2-in diameter pipe with a velocity of 15 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 (2) and the pipe length between the standpipe and tank (L) are 8 ft and 8 ft, respectively. Determine the height, h (ft), to which the water rises in the standpipe. P...
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...
Problem 2: Conservation of Mass Water flows steadily into a tank through pipes 1 and 2...
Problem 2: Conservation of Mass Water flows steadily into a tank through pipes 1 and 2 and discharges at a steady rate through pipes 3 and 4 (see figure). The mean velocity of inflow and outflow in pipes 1, 2 and 3 is 50 ft/s. The hypothetical outflow velocity in pipe 4 varies linearly from zero at the wall to a maximum at the center of the pipe. What are (a) the mass flow rate in pipe 4 and (b)...
View Policies Current Attempt in Progress Water flows from a large tank through a large pipe...
View Policies Current Attempt in Progress Water flows from a large tank through a large pipe that splits into two smaller pipes as shown in the figure below. The tip of the inclined pipe is at the same level as the bottom of the reservoir. If viscous effects are negligible, determine (a) the flowrate from the tank, (b) the pressure at point (1). Assumed, -0.05 m. d2 -0.03 m,dy-0.02 m, 2-9 m, and h - 7m. diameterd, diameter,
QUUESTION1 Water flows through a pipe as shown in Figure 1. The losses in the pipe can be express...
QUUESTION1 Water flows through a pipe as shown in Figure 1. The losses in the pipe can be expressed as 0.025 V2 per meter length of pipe, where V is the velocity in the pipe. The length AB is 6 m and BC is 11 m, determine the discharge and the pressure at B 2m 3m 5m 20mm diameter Figure 1: Schematic of water flowing from a tank through the pipe.
QUUESTION1 Water flows through a pipe as shown in...
Water flows steadily from a large tank as shown in the figure. The height of water...
Water flows steadily from a large tank as shown in the figure. The height of water in the tank is H = 4 m represents the height from the centerline of the horizontal pipe to the surface of the water in the tank. The water flows out of the tank through a pipe with diameter of 4 cm. The stream of water flows through a bend (= 30 degrees, L = 2.88 m) and exits as a free jet through...
1) 2) 3) Oil flows through an 8-inch diameter pipe with a velocity of 18 ft/s....
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Oil flows through an 8-inch diameter pipe with a velocity of 18 ft/s. If it discharges into the atmosphere through the nozzle, determine the total force the bolts must resist at the connection AB to hold the nozzle onto the pipe. Assume Yo = 55 lb/ft3. (30 pts) 8 in. 4 in. 18 m/s 06 PROB011 Research is being conducted on a medical specimen. They are trying to determine the pressure drop in fluid carrying vessels. If...
7. Water flows through a pipe of diameter 1.08m at a velocity of 2m/s. If someone...
7. Water flows through a pipe of diameter 1.08m at a velocity of 2m/s. If someone puts a nozzle on the end of the pipe, reducing the diameter to 0.35m, at what speed will the water exit the pipe?. 10. A pipe with a radius of 50 cm has water flowing at 5 m/s. If water goes into a new pipe with radius 33 cm, how much will the pressure decrease? 11. A large dam has a hole that is...
2. Water flows through 3/8 in diameter boiler tubes. Before being heated, the water in the...
2. Water flows through 3/8 in diameter boiler tubes. Before being heated, the water in the pipe has a density of 62.5 lbm/ft and velocity of 10ft/s. What would the velocity OS of the water to be downstream after it has been heated such that the water density 61.8 lbm/ft?
L 2. Steady statemass balance: Water is flowing at steady state in a 0.1 meter-diameter pipe...
L 2. Steady statemass balance: Water is flowing at steady state in a 0.1 meter-diameter pipe with a maximum velocity (turbulent profile) of 0.3 meters/sec. The pipe then goes through an expansion, to where it is then flowing in a 0.5 meter-diameter pipe, and the flow regime has changed from turbulent to laminar. In the second section of pipe, calculate the velocity as (a) block flow profile (Vavg), and (b) maximum velocity in laminar flow profile? HINT: you will need...
8. (15 points) Water flows through a 2-in diameter pipe with a velocity of 15 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 (2) and the pipe length between the standpipe and tank (L) are 8 ft and 8 ft, respectively. Determine the height, h (ft), to which the water rises in the standpipe. P...
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...
Problem 2: Conservation of Mass Water flows steadily into a tank through pipes 1 and 2 and discharges at a steady rate through pipes 3 and 4 (see figure). The mean velocity of inflow and outflow in pipes 1, 2 and 3 is 50 ft/s. The hypothetical outflow velocity in pipe 4 varies linearly from zero at the wall to a maximum at the center of the pipe. What are (a) the mass flow rate in pipe 4 and (b)...
View Policies Current Attempt in Progress Water flows from a large tank through a large pipe that splits into two smaller pipes as shown in the figure below. The tip of the inclined pipe is at the same level as the bottom of the reservoir. If viscous effects are negligible, determine (a) the flowrate from the tank, (b) the pressure at point (1). Assumed, -0.05 m. d2 -0.03 m,dy-0.02 m, 2-9 m, and h - 7m. diameterd, diameter,
QUUESTION1 Water flows through a pipe as shown in Figure 1. The losses in the pipe can be expressed as 0.025 V2 per meter length of pipe, where V is the velocity in the pipe. The length AB is 6 m and BC is 11 m, determine the discharge and the pressure at B 2m 3m 5m 20mm diameter Figure 1: Schematic of water flowing from a tank through the pipe.
QUUESTION1 Water flows through a pipe as shown in...
Water flows steadily from a large tank as shown in the figure. The height of water in the tank is H = 4 m represents the height from the centerline of the horizontal pipe to the surface of the water in the tank. The water flows out of the tank through a pipe with diameter of 4 cm. The stream of water flows through a bend (= 30 degrees, L = 2.88 m) and exits as a free jet through...
1)
2)
3)
Oil flows through an 8-inch diameter pipe with a velocity of 18 ft/s. If it discharges into the atmosphere through the nozzle, determine the total force the bolts must resist at the connection AB to hold the nozzle onto the pipe. Assume Yo = 55 lb/ft3. (30 pts) 8 in. 4 in. 18 m/s 06 PROB011 Research is being conducted on a medical specimen. They are trying to determine the pressure drop in fluid carrying vessels. If...
2. Water flows through 3/8 in diameter boiler tubes. Before being heated, the water in the pipe has a density of 62.5 lbm/ft and velocity of 10ft/s. What would the velocity OS of the water to be downstream after it has been heated such that the water density 61.8 lbm/ft?
L 2. Steady statemass balance: Water is flowing at steady state in a 0.1 meter-diameter pipe with a maximum velocity (turbulent profile) of 0.3 meters/sec. The pipe then goes through an expansion, to where it is then flowing in a 0.5 meter-diameter pipe, and the flow regime has changed from turbulent to laminar. In the second section of pipe, calculate the velocity as (a) block flow profile (Vavg), and (b) maximum velocity in laminar flow profile? HINT: you will need...
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