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. Fluid is water Exit at atmospheric pressure FIND FORCE COMPONENTS TO KEEP THE PIPE FIXED...
Water is transported in the device shown in the diagram. Determine: a) the component of the...
Water is transported in the device shown in the diagram.
Determine:
a) the component of the force on the axis necessary to keep
the element fixed.
b) The pressures in each discharge current.
Note: Make the calculation neglecting the viscous
losses.
A = 0.4 ft 30 ft/s 10 psi Flange 20 ft/s A = 0.8 ft2 43 A = 0.8 ft?
Water flows through the nozzle below and exits with a velocity of 60 ft/s. The flow...
Water flows through the nozzle below and exits with a velocity of 60 ft/s. The flow area is 0.3 ft2 at the flange and 0.1 ft2 at the exit. Find the total force in the bolts at the flange. (assume inviscid flow and Pa14.7 psia atmospheric pressure) 2. (assume inviscid flow and P atmospheric pressure) C.V. V. P2 Pa
5.26 A nozzle is attached to a vertical pipe and discharges water into the atmosphere as...
5.26 A nozzle is attached to a vertical pipe and discharges water into the atmosphere as shown in Fig. P5.26. When the discharge is 0.1 m/s, the gage pressure at the flange is 40 kPa. Determine the vertical component of the anchoring force required to hold the nozzle in place. The nozzle has a weight of 200 N, and the volume of water in the nozzle is 0.012 mº. Is the anchoring force directed upward or downward? 300 Area =...
Water flow in a pipe and then exit through a bended nozzle as shown in Figure...
Water flow in a pipe and then exit through a bended nozzle as shown in Figure 3. The nozzle is connected to the main pipe using a flanged joint at (1). The diameter of the pipe is D1 10 cm and is constant, whilst the diameter at the outlet section of the nozzle (2) is D2 3 em. The flowrate of the water is Q = 15 liter/s and the water pressure at the flange is Pi 230 kPa. By...
Water is discharged through an elbow nozzle as shown below. PB - Patm ds The exit...
Water is discharged through an elbow nozzle as shown below. PB - Patm ds The exit velocity VB = 30 ft/s, the inlet diameter da = 0.5 ft, the exit diameter dB = 0.25 ft. For water density, use p = 32.2 lb/ft = 1.94 lb/ft. Assume steady flow. Neglect the weight of the nozzle and the water in the nozzle. The mass flow rate through the nozzle is 2.86 slug/s 11.4 slug/s O 92.0 slug/s 18.8 slug/s Determine the...
A construction equipment accident cut the pipe bend shown. Gasoline (S = 0.75) discharges to the...
A construction equipment accident cut the pipe bend shown. Gasoline (S = 0.75) discharges to the atmosphere at a steady rate of 65 ft3/s. Open pipe Area 0.5 ft2· (a) Sketch the appropriate diagrams and set up the equations to analyze the total force (z-and x-components) thatthe flange must ·ý esupply to hold the pipe bend in place. 120 (b) Calculate the z- and x-components of force. Assume that the volume of fluid in the pipe section shown is 2...
Water is supplied at a rate of 100 ft? 5-1, pressure of 50 psi to a...
Water is supplied at a rate of 100 ft? 5-1, pressure of 50 psi to a turbine through a 5 ft 2 cross-sectional area pipe. The exit conditions are: Water discharges through a pipe of cross-sectional areas 2 ft2 into the atmosphere. The turbine develops a power of 500 hp. The total head loss in this system is 10ft. Assume density of water is 62.8 lbf/m3 Part 1: The velocity with which waters discharges into the atmosphere is ft s-1...
Find the force required to hold the plug in place at the exit of the water pipe. The flow rate is 1.5 mls, and the upstream pressure is 3,500 kPa. 0.2 m 0.25 m Find the force required to hol...
Find the force required to hold the plug in place at the exit of the water pipe. The flow rate is 1.5 mls, and the upstream pressure is 3,500 kPa. 0.2 m 0.25 m
Find the force required to hold the plug in place at the exit of the water pipe. The flow rate is 1.5 mls, and the upstream pressure is 3,500 kPa. 0.2 m 0.25 m
Question 8: Water exits a pipe of diameter 2.0 cm with speed 5.0 m/s. Assume atmospheric...
Question 8: Water exits a pipe of diameter 2.0 cm with speed 5.0 m/s. Assume atmospheric pressure at the exit. What is the pressure where the pipe diameter is 4.0 cm and 3.0 m below the exit? 20 cm 3.0m YOL cm
Question 8: Water exits a pipe of diameter 2.0 cm with speed 5.0 m/s. Assume atmospheric...
Question 8: Water exits a pipe of diameter 2.0 cm with speed 5.0 m/s. Assume atmospheric pressure at the exit. What is the pressure where the pipe diameter is 4.0 cm and 3.0 m below the exit? 20 cm 3.0m YOL cm
Water is transported in the device shown in the diagram.
Determine:
a) the component of the force on the axis necessary to keep
the element fixed.
b) The pressures in each discharge current.
Note: Make the calculation neglecting the viscous
losses.
A = 0.4 ft 30 ft/s 10 psi Flange 20 ft/s A = 0.8 ft2 43 A = 0.8 ft?
Water flows through the nozzle below and exits with a velocity of 60 ft/s. The flow area is 0.3 ft2 at the flange and 0.1 ft2 at the exit. Find the total force in the bolts at the flange. (assume inviscid flow and Pa14.7 psia atmospheric pressure) 2. (assume inviscid flow and P atmospheric pressure) C.V. V. P2 Pa
5.26 A nozzle is attached to a vertical pipe and discharges water into the atmosphere as shown in Fig. P5.26. When the discharge is 0.1 m/s, the gage pressure at the flange is 40 kPa. Determine the vertical component of the anchoring force required to hold the nozzle in place. The nozzle has a weight of 200 N, and the volume of water in the nozzle is 0.012 mº. Is the anchoring force directed upward or downward? 300 Area =...
Water flow in a pipe and then exit through a bended nozzle as shown in Figure 3. The nozzle is connected to the main pipe using a flanged joint at (1). The diameter of the pipe is D1 10 cm and is constant, whilst the diameter at the outlet section of the nozzle (2) is D2 3 em. The flowrate of the water is Q = 15 liter/s and the water pressure at the flange is Pi 230 kPa. By...
Water is discharged through an elbow nozzle as shown below. PB - Patm ds The exit velocity VB = 30 ft/s, the inlet diameter da = 0.5 ft, the exit diameter dB = 0.25 ft. For water density, use p = 32.2 lb/ft = 1.94 lb/ft. Assume steady flow. Neglect the weight of the nozzle and the water in the nozzle. The mass flow rate through the nozzle is 2.86 slug/s 11.4 slug/s O 92.0 slug/s 18.8 slug/s Determine the...
A construction equipment accident cut the pipe bend shown. Gasoline (S = 0.75) discharges to the atmosphere at a steady rate of 65 ft3/s. Open pipe Area 0.5 ft2· (a) Sketch the appropriate diagrams and set up the equations to analyze the total force (z-and x-components) thatthe flange must ·ý esupply to hold the pipe bend in place. 120 (b) Calculate the z- and x-components of force. Assume that the volume of fluid in the pipe section shown is 2...
Water is supplied at a rate of 100 ft? 5-1, pressure of 50 psi to a turbine through a 5 ft 2 cross-sectional area pipe. The exit conditions are: Water discharges through a pipe of cross-sectional areas 2 ft2 into the atmosphere. The turbine develops a power of 500 hp. The total head loss in this system is 10ft. Assume density of water is 62.8 lbf/m3 Part 1: The velocity with which waters discharges into the atmosphere is ft s-1...
Find the force required to hold the plug in place at the exit of the water pipe. The flow rate is 1.5 mls, and the upstream pressure is 3,500 kPa. 0.2 m 0.25 m
Find the force required to hold the plug in place at the exit of the water pipe. The flow rate is 1.5 mls, and the upstream pressure is 3,500 kPa. 0.2 m 0.25 m
Question 8: Water exits a pipe of diameter 2.0 cm with speed 5.0 m/s. Assume atmospheric pressure at the exit. What is the pressure where the pipe diameter is 4.0 cm and 3.0 m below the exit? 20 cm 3.0m YOL cm
Question 8: Water exits a pipe of diameter 2.0 cm with speed 5.0 m/s. Assume atmospheric pressure at the exit. What is the pressure where the pipe diameter is 4.0 cm and 3.0 m below the exit? 20 cm 3.0m YOL cm
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