A 150-mm-diameter galvanized iron pipe is used to transport
water at T = 30∘C with a velocity of 1.5 m/s. Determine the
pressure drop over the 15-m length of the pipe.
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A 150-mm-diameter galvanized iron pipe is used to transport
water at T = 30∘C with a...
Answer: 133KPa Show working A 75-mm-diameter galvanized iron pipe, having a roughness of e = 0.2 mm, is to be used to ca...
Answer: 133KPa
Show working
A 75-mm-diameter galvanized iron pipe, having a roughness of e = 0.2 mm, is to be used to carry water at a temperature of 60°C and with a velocity of 3 m/s. Determine the pressure drop over its 12-m length if the pipe is vertical and the flow is upward.
A 75-mm-diameter galvanized iron pipe, having a roughness of e = 0.2 mm, is to be used to carry water at a temperature of 60°C and...
Water at 20 C flows through the 20-mm diameter galvanized iron pipe such that it discharges...
Water at 20 C flows through the 20-mm diameter galvanized iron pipe such that it discharges at C from the fully opened gate valve B at 0.003 m/s Pe 998 3 kg/m3 and 100(10 ) m2/s Use the Part A Determine the required pressure at A Include the minor losses of the four elbows and gate valve. Express your answer to three significant figures and include the appropriate units. equation市一1.8kg(#)1.11 + 3.7 Figure 1 of 1 PA: I Value Units...
A 6” galvanized iron pipe 200’ long is used to transport water (100 °F) at 400...
A 6” galvanized iron pipe 200’ long is used to transport water (100 °F) at 400 gpm from a reservoir. Determine the head loss via the Darcy-Weisbach equation and the Moody diagram.
1) Water is flowing through the 50-mm galvanized-iron pipe system shown in the figure. The average...
1) Water is flowing through the 50-mm galvanized-iron pipe system shown in the figure. The average velocity in the pipe is V=3.5 m/s. Assume the temperature is 20°C. a) What is friction loss between Points A and B? b) What is the pressure at Point A, if Point B is a free jet? Use the Moody Diagram to solve. 50 mm 2) For the same conditions in Problem #1, use the "Fully-Rough" equation to determine the friction factor, f. Compare...
A cast iron pipe having a diameter of 100 mm is used to fill the cylindrical...
A cast iron pipe having a diameter of 100 mm is used to fill the cylindrical tank with water at T = 25°C. The pipe has a total length of 50 m. Suppose that h = 18 m. Neglect minor losses. Use the equation ED 1.11 6.9 = -1.8 log 3.7 Re (Figure 1) Part A + Determine the required power output of a pump necessary to fill the empty tank to a depth of 3 m in 6.5 min....
Q2 A 200 mm diameter cast iron pipe with wall thickness of 15 mm is carrying water when the outle...
Q2 A 200 mm diameter cast iron pipe with wall thickness of 15 mm is carrying water when the outlet is suddenly closed. Calculate the maximmum discharge if the pressure rise is not to exceed 180 kN/m2 (a) assuming the pipe is rigid; (b) allowing for hoop stress but not longitudinal stress in the pipe wall; (c) assuming the pipe to have expansion joints throughout its length. (K-2.1 × 109 N/m 2, E 100x 109 N/m2)
Q2 A 200 mm...
Water at 15-Celsius flowing through 25 meters of 100mm- diameter galvanized iron pipe, causes a head...
Water at 15-Celsius flowing through 25 meters of 100mm- diameter galvanized iron pipe, causes a head loss (due to pipe friction) of 75mm. Find the flow rate
mn=3.14 Water at T = 30°C flows through the 400-mm-diameter concrete pipe from the reservoir at...
mn=3.14
Water at T = 30°C flows through the 400-mm-diameter concrete pipe from the reservoir at A to the one at B. Determine the flow. The length of the concrete pipe is 100 m. The roughness of the concrete pipe is e=0.8 mm. A mn +15 m B
24.) (2) point Water at T = 30°C flows through the 400-mm-diameter concrete pipe from the...
24.) (2) point Water at T = 30°C flows through the 400-mm-diameter concrete pipe from the reservoir at A to the one at B. Determine the flow. The length of the concrete pipe is 100 m. The roughness of the concrete pipe is e = 0.8 mm. А +15 m B
course name hydraulics 1. Two Galvanized iron (e= 0.15 mm) pipes in series connecting two reservoirs....
course name hydraulics
1. Two Galvanized iron (e= 0.15 mm) pipes in series connecting two reservoirs. First pipe is 400 m long and has diameter of 1.0 m (see next figure). The second pipe is 250 m long and has diameter of 0.70 m. The elevation of the water surface in thereservoir B is 50.00 m. The discharge from reservoir A to reservoir B is 1.0 m3/s. Thewater viscosity is 1.5 x 10-6 m/s. A gate valve is installed on...
Answer: 133KPa
Show working
A 75-mm-diameter galvanized iron pipe, having a roughness of e = 0.2 mm, is to be used to carry water at a temperature of 60°C and with a velocity of 3 m/s. Determine the pressure drop over its 12-m length if the pipe is vertical and the flow is upward.
A 75-mm-diameter galvanized iron pipe, having a roughness of e = 0.2 mm, is to be used to carry water at a temperature of 60°C and...
Water at 20 C flows through the 20-mm diameter galvanized iron pipe such that it discharges at C from the fully opened gate valve B at 0.003 m/s Pe 998 3 kg/m3 and 100(10 ) m2/s Use the Part A Determine the required pressure at A Include the minor losses of the four elbows and gate valve. Express your answer to three significant figures and include the appropriate units. equation市一1.8kg(#)1.11 + 3.7 Figure 1 of 1 PA: I Value Units...
1) Water is flowing through the 50-mm galvanized-iron pipe system shown in the figure. The average velocity in the pipe is V=3.5 m/s. Assume the temperature is 20°C. a) What is friction loss between Points A and B? b) What is the pressure at Point A, if Point B is a free jet? Use the Moody Diagram to solve. 50 mm 2) For the same conditions in Problem #1, use the "Fully-Rough" equation to determine the friction factor, f. Compare...
A cast iron pipe having a diameter of 100 mm is used to fill the cylindrical tank with water at T = 25°C. The pipe has a total length of 50 m. Suppose that h = 18 m. Neglect minor losses. Use the equation ED 1.11 6.9 = -1.8 log 3.7 Re (Figure 1) Part A + Determine the required power output of a pump necessary to fill the empty tank to a depth of 3 m in 6.5 min....
Q2 A 200 mm diameter cast iron pipe with wall thickness of 15 mm is carrying water when the outlet is suddenly closed. Calculate the maximmum discharge if the pressure rise is not to exceed 180 kN/m2 (a) assuming the pipe is rigid; (b) allowing for hoop stress but not longitudinal stress in the pipe wall; (c) assuming the pipe to have expansion joints throughout its length. (K-2.1 × 109 N/m 2, E 100x 109 N/m2)
Q2 A 200 mm...
Water at 15-Celsius flowing through 25 meters of 100mm- diameter galvanized iron pipe, causes a head loss (due to pipe friction) of 75mm. Find the flow rate
mn=3.14
Water at T = 30°C flows through the 400-mm-diameter concrete pipe from the reservoir at A to the one at B. Determine the flow. The length of the concrete pipe is 100 m. The roughness of the concrete pipe is e=0.8 mm. A mn +15 m B
24.) (2) point Water at T = 30°C flows through the 400-mm-diameter concrete pipe from the reservoir at A to the one at B. Determine the flow. The length of the concrete pipe is 100 m. The roughness of the concrete pipe is e = 0.8 mm. А +15 m B
course name hydraulics
1. Two Galvanized iron (e= 0.15 mm) pipes in series connecting two reservoirs. First pipe is 400 m long and has diameter of 1.0 m (see next figure). The second pipe is 250 m long and has diameter of 0.70 m. The elevation of the water surface in thereservoir B is 50.00 m. The discharge from reservoir A to reservoir B is 1.0 m3/s. Thewater viscosity is 1.5 x 10-6 m/s. A gate valve is installed on...
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