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Question 11 Water is flowing through a 10-cm-diameter water pipe at a rate of 0.2 m3/s....
Question 11 Water is flowing through a 10-cm-diameter water pipe at a rate of 0.2 m3/s....
Question 11 Water is flowing through a 10-cm-diameter water pipe at a rate of 0.2 m3/s. Now a diffuser with an outlet diameter of 20 cm is bolted to the pipe in order to slow down water that exits into atmosphere, as shown. Disregarding frictional effects, determine the force exerted on the flange due to the water flow. Density of water = 1000 kg/m3 = 10 cm D = 20 cm Diffuser 357 N 1549 N 6205 N none of...
Water is flowing through a 10-cm diameter water pipe at a rate of 0.2 m^3/s. Now...
Water is flowing through a 10-cm diameter water pipe at a rate
of 0.2 m^3/s. Now a diffuser with an outlet diameter of 20 cm is
bolted to the pipe in order to slow down water that exits into the
atmosphere, as shown. Disregarding frictional effects, determine
the force exerted on the flange due to the water flow. Density of
water = 1,000 kg/m^3.
+ d = 10 cm D = 20 cm Diffuser
Water is flowing through a 10-cm-diameter water pipe at a rate of 0.1 m/s. Then, a...
Water is flowing through a 10-cm-diameter water pipe at a rate of 0.1 m/s. Then, a diffuser with an outlet diameter of 20 cm is bolted to the pipe in order to slow down water as it exits the diffuser to atmospheric pressure, as shown in the given figure. Disregarding frictional effects, determine the force exerted on the bolts due to the water flow. Take the density of water to be 1000 kg/m3 -t- d 10 cmm D = 20...
CE 2200 Fall 2018 Homework #12 72.22/100 Total points awarded Help Exit ter is flowing through...
CE 2200 Fall 2018 Homework #12 72.22/100 Total points awarded Help Exit ter is flowing through a 10-cm-diameter water pipe at a rate of 01 m3/s. Then, a diffuser with an outlet diameter of 20 cm is to the pipe in order to slow down water as it exits the diffuser to atmospheric pressure, as shown in the given figure. effects, determine the force exerted on the bolts due to the water flow. Take the density of water to be...
3. Water at 10°C (p=999.7kg/m3 and p=1.307x10-3 kg/m.s) is flowing steadily through a 0.2-cm diameter and...
3. Water at 10°C (p=999.7kg/m3 and p=1.307x10-3 kg/m.s) is flowing steadily through a 0.2-cm diameter and 15m long pipe at an average velocity of 1.2m/s. . Determine the friction factor . A) 0.035 . B) 0.005 . C) 0.017 . D) 0.0005 . Calculate Re. f = 64/Re
H2.3 Consider water at 20°C flowing through a horizontal pipe of diameter 15 cm and length 10 m. ...
H2.3 Consider water at 20°C flowing through a horizontal pipe of diameter 15 cm and length 10 m. The flowrate is 0.021 m3/s and the wall shear stress is 5.76 N/m2. Assume fully developed flow. a. Verify that the flow is turbulent b. Determine the pressure drop [N/m2 c. Estimate the viscous sublayer thickness [mm], i.e., where y+ 5 d. Compare results of part c. with typical pipe roughness (see Table 8.1 in text and comment on implication e. Using...
Q 14.14: Water is flowing through a pipe of inner diameter 1.6 cm and length 12...
Q 14.14: Water is flowing through a pipe of inner diameter 1.6 cm and length 12 m at a speed of 4.3 m/s. If the pipe is at a height of 5.2 m, what is the gravitational potential energy density of the water? A 51000 J/m3 B 98000 J/m3 C 45J/m3 D 0.15J/m3 E 9200 J/m3
also need direction of resultant force FIGURE P6-37 6-38 Water flowing in a horizontal 25-cm-diameter pipe...
also need direction of resultant force
FIGURE P6-37 6-38 Water flowing in a horizontal 25-cm-diameter pipe at 8 m/s and 300 kPa gage enters a 90 bend reducing section, which connects to a 15-cm-diameter vertical pipe. The inlet of the bend is 50 cm above the exit. Neglecting any frictional and gravitational effects, determine the net resultant force exerted on the reducer by the water. Take the momentum- flux correction factor to be 1.04. 6 30 A horizontal 4-cm-diameter water...
The water is flowing through a pipe having diameter 22 Cm and 12Cm at sections (1)...
The water is flowing through a pipe having diameter 22 Cm and 12Cm at sections (1) and (2) respectively. The volumetric flow rate is 0.2m3/s. The section (1) is 8m above datum and section (2) is 5m above datum. If the pressure at section (1) is 40N/Cm2. Find the pressure at section (2). Density of water=1000kg/m3. Select one: O a. 296781.2 N/m2 O b. 286754.9 N/m2 O c. 267212.4 N/m2 O d. 276729.1 N/m2 e. 288667.4 N/m2
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...
Question 11 Water is flowing through a 10-cm-diameter water pipe at a rate of 0.2 m3/s. Now a diffuser with an outlet diameter of 20 cm is bolted to the pipe in order to slow down water that exits into atmosphere, as shown. Disregarding frictional effects, determine the force exerted on the flange due to the water flow. Density of water = 1000 kg/m3 = 10 cm D = 20 cm Diffuser 357 N 1549 N 6205 N none of...
Water is flowing through a 10-cm diameter water pipe at a rate
of 0.2 m^3/s. Now a diffuser with an outlet diameter of 20 cm is
bolted to the pipe in order to slow down water that exits into the
atmosphere, as shown. Disregarding frictional effects, determine
the force exerted on the flange due to the water flow. Density of
water = 1,000 kg/m^3.
+ d = 10 cm D = 20 cm Diffuser
Water is flowing through a 10-cm-diameter water pipe at a rate of 0.1 m/s. Then, a diffuser with an outlet diameter of 20 cm is bolted to the pipe in order to slow down water as it exits the diffuser to atmospheric pressure, as shown in the given figure. Disregarding frictional effects, determine the force exerted on the bolts due to the water flow. Take the density of water to be 1000 kg/m3 -t- d 10 cmm D = 20...
CE 2200 Fall 2018 Homework #12 72.22/100 Total points awarded Help Exit ter is flowing through a 10-cm-diameter water pipe at a rate of 01 m3/s. Then, a diffuser with an outlet diameter of 20 cm is to the pipe in order to slow down water as it exits the diffuser to atmospheric pressure, as shown in the given figure. effects, determine the force exerted on the bolts due to the water flow. Take the density of water to be...
3. Water at 10°C (p=999.7kg/m3 and p=1.307x10-3 kg/m.s) is flowing steadily through a 0.2-cm diameter and 15m long pipe at an average velocity of 1.2m/s. . Determine the friction factor . A) 0.035 . B) 0.005 . C) 0.017 . D) 0.0005 . Calculate Re. f = 64/Re
H2.3 Consider water at 20°C flowing through a horizontal pipe of diameter 15 cm and length 10 m. The flowrate is 0.021 m3/s and the wall shear stress is 5.76 N/m2. Assume fully developed flow. a. Verify that the flow is turbulent b. Determine the pressure drop [N/m2 c. Estimate the viscous sublayer thickness [mm], i.e., where y+ 5 d. Compare results of part c. with typical pipe roughness (see Table 8.1 in text and comment on implication e. Using...
Q 14.14: Water is flowing through a pipe of inner diameter 1.6 cm and length 12 m at a speed of 4.3 m/s. If the pipe is at a height of 5.2 m, what is the gravitational potential energy density of the water? A 51000 J/m3 B 98000 J/m3 C 45J/m3 D 0.15J/m3 E 9200 J/m3
also need direction of resultant force
FIGURE P6-37 6-38 Water flowing in a horizontal 25-cm-diameter pipe at 8 m/s and 300 kPa gage enters a 90 bend reducing section, which connects to a 15-cm-diameter vertical pipe. The inlet of the bend is 50 cm above the exit. Neglecting any frictional and gravitational effects, determine the net resultant force exerted on the reducer by the water. Take the momentum- flux correction factor to be 1.04. 6 30 A horizontal 4-cm-diameter water...
The water is flowing through a pipe having diameter 22 Cm and 12Cm at sections (1) and (2) respectively. The volumetric flow rate is 0.2m3/s. The section (1) is 8m above datum and section (2) is 5m above datum. If the pressure at section (1) is 40N/Cm2. Find the pressure at section (2). Density of water=1000kg/m3. Select one: O a. 296781.2 N/m2 O b. 286754.9 N/m2 O c. 267212.4 N/m2 O d. 276729.1 N/m2 e. 288667.4 N/m2
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...
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