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Water flows through the nozzle below and exits with a velocity of 60 ft/s. The flow...
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...
Water at 60 °F flows through the elbow as shown below and is then injected to...
Water at 60 °F flows through the elbow as shown below and is then injected to the atmosphere through a nozzle (on a horizontal plane). The pipe diameter is Di = 4 in. while the diameter of the exit of the nozzle is D2 = 1 in. At a flow rate of Q = 245 gpm, the gage pressure at the section (1) where the flange locates is Pi = 34 psig. Neglect the weight of the water and elbow,...
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 flows through a nozzle at a rate of 18 ft/s (Q) and discharge into...
Water is flows through a nozzle at a rate of 18 ft/s (Q) and discharge into the atmosphere. The diameters Di 15 in. and D2- 5.5 in. The pressure measured at section 1 is P1-3100 1b/ft (gage). Determine the horizontal force required at the flange to hold the nozzle in place. Indicated the direction of the force (to the left or to the right). D2
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 =...
This nozzle bends the flow from vertically upward to 50 with the horizontal and discharges water...
This nozzle bends the flow from vertically upward to 50 with the horizontal and discharges water ? 62.4 lbr t3 at a speed of V-190 f s. The volume within the nozzle itself ?? 1.6 ft.. an the weight of the nozz e is 100 b For these conditions, what vertical force must be applied to the nozzle at the flange to hold it in place? 50 \ 0.50 ft2 Volume 1.8ft Flange 2 ft A1.0 ft2 lbf Click here...
Problem: 16 Air at 60 F flows from a large tank through a convergent nozzle, which...
Problem: 16 Air at 60 F flows from a large tank through a convergent nozzle, which has an exit diameter of 1.0 in. The discharge is to the atmosphere, where atmospheric pressure is 14.5 psia. Air pressure inside the tank is 30.0 paig. What is the weight fow rate of air through the nozzle? Ans: 0.503 Ib/s
Q4. 25 points. Water flows through a horizontal nozzle in steady flow at the rate of...
Q4. 25 points. Water flows through a horizontal nozzle in steady flow at the rate of 10 m/s. The diameter inside the nozzle at (1) is dı = 0.5 m and at the exit (2) dx = 0.25 m. Water exits the nozzle to the atmo sphere. (1) Q 10 ms 12) Atmosphere Flow 4,-0.5 w cations to answer The weight of the nozzle W = 10 kN and acts vertically downwards as shown. Assume p = 1000 kg/mº, 9...
Water flows through a frictionless nozzle with negligible inlet velocity and an exit velocity of 13...
Water flows through a frictionless nozzle with negligible inlet velocity and an exit velocity of 13 m/s. The nozzle discharges to the atmosphere. The same nozzle is then used with gasoline (SG=0.75). The nozzle inlet pressure is the same with both water and gasoline. The nozzle exit velocity for gasoline will be? 0 15 m/s 0 10 m/s O 13 m/s 0 17 m/s
1) 2) 3) Oil flows through an 8-inch diameter pipe with a velocity of 18 ft/s....
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2)
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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...
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...
Water at 60 °F flows through the elbow as shown below and is then injected to the atmosphere through a nozzle (on a horizontal plane). The pipe diameter is Di = 4 in. while the diameter of the exit of the nozzle is D2 = 1 in. At a flow rate of Q = 245 gpm, the gage pressure at the section (1) where the flange locates is Pi = 34 psig. Neglect the weight of the water and elbow,...
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 flows through a nozzle at a rate of 18 ft/s (Q) and discharge into the atmosphere. The diameters Di 15 in. and D2- 5.5 in. The pressure measured at section 1 is P1-3100 1b/ft (gage). Determine the horizontal force required at the flange to hold the nozzle in place. Indicated the direction of the force (to the left or to the right). D2
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 =...
This nozzle bends the flow from vertically upward to 50 with the horizontal and discharges water ? 62.4 lbr t3 at a speed of V-190 f s. The volume within the nozzle itself ?? 1.6 ft.. an the weight of the nozz e is 100 b For these conditions, what vertical force must be applied to the nozzle at the flange to hold it in place? 50 \ 0.50 ft2 Volume 1.8ft Flange 2 ft A1.0 ft2 lbf Click here...
Problem: 16 Air at 60 F flows from a large tank through a convergent nozzle, which has an exit diameter of 1.0 in. The discharge is to the atmosphere, where atmospheric pressure is 14.5 psia. Air pressure inside the tank is 30.0 paig. What is the weight fow rate of air through the nozzle? Ans: 0.503 Ib/s
Q4. 25 points. Water flows through a horizontal nozzle in steady flow at the rate of 10 m/s. The diameter inside the nozzle at (1) is dı = 0.5 m and at the exit (2) dx = 0.25 m. Water exits the nozzle to the atmo sphere. (1) Q 10 ms 12) Atmosphere Flow 4,-0.5 w cations to answer The weight of the nozzle W = 10 kN and acts vertically downwards as shown. Assume p = 1000 kg/mº, 9...
Water flows through a frictionless nozzle with negligible inlet velocity and an exit velocity of 13 m/s. The nozzle discharges to the atmosphere. The same nozzle is then used with gasoline (SG=0.75). The nozzle inlet pressure is the same with both water and gasoline. The nozzle exit velocity for gasoline will be? 0 15 m/s 0 10 m/s O 13 m/s 0 17 m/s
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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...
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