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Water flows through the pipe contraction shown in Figure 1. For the given difference in piezometer...
Water flows through a pipe reducer as shown in the figure. If the manometer reading h - 2 m. Find...
Water flows through a pipe reducer as shown in the figure. If the manometer reading h - 2 m. Find the flow rate in Liters per second. Assume DI-15 cm, D2-10 cm. SG:-0.80 a. What is the effect of the angle θ b. Is this a practical arrangement, if yes why, if not how would you improve it? c. Ca n mercury be used as a manometer fluid in this arrangement? Why, or why not? SG D2 Water Di
Water...
1. Water flows through a commercial steel pipe, as sketched below (not to scale): SIDACTION D2ELBSOW...
1. Water flows through a commercial steel pipe, as sketched below (not to scale): SIDACTION D2ELBSOW し1 L2 D2 SUDDEN EXPANSIOND The water enters a pipe at point A with a diameter, Di, of 25 cm at a flow rate, Q, of 0.075 m3/s. After a length, Li, of 150 m, there is a sudden contraction to a smaller diameter, D2, of 10 cm. Following another length, L2, of 95 m, there is a 45° elbow, turning the pipe towards...
Water flows through a pipe as shown in the figure. The pressure at points 1 and...
Water flows through a pipe as shown in the figure. The pressure at points 1 and 2 respectively is 1.80 x 105 Pa and 1.20 x 105 Pa. The radius of the pipe at points 1 and 2 respectively is 3.50 cm and 1.20 cm. If the vertical distance between points 1 and 2 is 2.75 m, determine the following. (a) speed of flow at point 1 m/s (b) speed of flow at point 2 cm/s (c) volume flow rate...
1. For the system shown below, oil (S.G. = 0.75) flows through a contracting pipe, and...
1. For the system shown below, oil (S.G. = 0.75) flows through a contracting pipe, and a differential mercury (S.G. = 13.56) manometer is used to directly measure the difference in pressure between location A and location B. From the dimensions that are given, what is PA-po? 1.500 m 0.250 m h 0.250 m Mercury
5) Oil (S.G=0.9) flows enters the pipe shown through the bottom inlet at a rate of...
5) Oil (S.G=0.9) flows enters the pipe shown through the bottom inlet at a rate of 0.25 m/min and is discharged to at P. - 76 kPa the nozzle outlet at the top. The pipe has a diameter Di = 40 mm at the entrance and a diameter D2 = 20 mm at the exit. If P. = 76 kPa, P2 =20 kPa, and the weight the oil and the piping is negligible, what is the reaction moment at flange...
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...
Problem 5: The water flow through a horizontal pipe is split into two flows as shown...
Problem 5: The water flow through a horizontal pipe is split into two flows as shown in the figure below. Pipes areas are D = 15 cm and D2 = D3 = 10 cm. The flow discharge at pipes 2 and 3 are equal to 100 1s. Calculate the force acting at section 1 on flange bolts. Assume that fluid is ideal. (ywater = 9.810 kN/m², poil = 998 kgm?) 30° gal 30° 0 3
Water flows through the pipe in the figure below and exits to the atmosphere at the...
Water flows through the pipe in the figure below and exits to the atmosphere at the right end of section C. The diameter of the pipe is 2.12 cm at A, 4.24 cm at B, and 0.880 cm at C. The gauge pressure in the pipe at the center of section A is 1.25 atm and the flow rate is 0.856 L/s. The vertical pipes are open to the air. Find the level (above the flow midline as shown) of...
PROBLEM 2 = Water flows through a Venturi meter, as shown in Figure 1. The pressure...
PROBLEM 2 = Water flows through a Venturi meter, as shown in Figure 1. The pressure of the water in the pipe supports columns of water that differ in height by L = 25 cm. The atmospheric pressure is Patm 101.3 kPa, the specific volume of water is v = 0.001 mº kg-1, and the acceleration of gravity is g = 9.81 ms-2. Patm = 101,3 kPa 8 = 9.8 m/s? L = 250 mm Water v = 0.001 m?/kg...
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 flows through a pipe reducer as shown in the figure. If the manometer reading h - 2 m. Find the flow rate in Liters per second. Assume DI-15 cm, D2-10 cm. SG:-0.80 a. What is the effect of the angle θ b. Is this a practical arrangement, if yes why, if not how would you improve it? c. Ca n mercury be used as a manometer fluid in this arrangement? Why, or why not? SG D2 Water Di
Water...
1. Water flows through a commercial steel pipe, as sketched below (not to scale): SIDACTION D2ELBSOW し1 L2 D2 SUDDEN EXPANSIOND The water enters a pipe at point A with a diameter, Di, of 25 cm at a flow rate, Q, of 0.075 m3/s. After a length, Li, of 150 m, there is a sudden contraction to a smaller diameter, D2, of 10 cm. Following another length, L2, of 95 m, there is a 45° elbow, turning the pipe towards...
Water flows through a pipe as shown in the figure. The pressure at points 1 and 2 respectively is 1.80 x 105 Pa and 1.20 x 105 Pa. The radius of the pipe at points 1 and 2 respectively is 3.50 cm and 1.20 cm. If the vertical distance between points 1 and 2 is 2.75 m, determine the following. (a) speed of flow at point 1 m/s (b) speed of flow at point 2 cm/s (c) volume flow rate...
1. For the system shown below, oil (S.G. = 0.75) flows through a contracting pipe, and a differential mercury (S.G. = 13.56) manometer is used to directly measure the difference in pressure between location A and location B. From the dimensions that are given, what is PA-po? 1.500 m 0.250 m h 0.250 m Mercury
5) Oil (S.G=0.9) flows enters the pipe shown through the bottom inlet at a rate of 0.25 m/min and is discharged to at P. - 76 kPa the nozzle outlet at the top. The pipe has a diameter Di = 40 mm at the entrance and a diameter D2 = 20 mm at the exit. If P. = 76 kPa, P2 =20 kPa, and the weight the oil and the piping is negligible, what is the reaction moment at flange...
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...
Problem 5: The water flow through a horizontal pipe is split into two flows as shown in the figure below. Pipes areas are D = 15 cm and D2 = D3 = 10 cm. The flow discharge at pipes 2 and 3 are equal to 100 1s. Calculate the force acting at section 1 on flange bolts. Assume that fluid is ideal. (ywater = 9.810 kN/m², poil = 998 kgm?) 30° gal 30° 0 3
Water flows through the pipe in the figure below and exits to the atmosphere at the right end of section C. The diameter of the pipe is 2.12 cm at A, 4.24 cm at B, and 0.880 cm at C. The gauge pressure in the pipe at the center of section A is 1.25 atm and the flow rate is 0.856 L/s. The vertical pipes are open to the air. Find the level (above the flow midline as shown) of...
PROBLEM 2 = Water flows through a Venturi meter, as shown in Figure 1. The pressure of the water in the pipe supports columns of water that differ in height by L = 25 cm. The atmospheric pressure is Patm 101.3 kPa, the specific volume of water is v = 0.001 mº kg-1, and the acceleration of gravity is g = 9.81 ms-2. Patm = 101,3 kPa 8 = 9.8 m/s? L = 250 mm Water v = 0.001 m?/kg...
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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