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10. (Ans. 6.1x10m/s) Determine the flowrate through the Venturi meter shown in Figure if ideal conditions...
12.01 (CD 12.32 Determine the volumetric flow rate through the Venture meter shown in Fig. P12.32...
12.01 (CD 12.32 Determine the volumetric flow rate through the Venture meter shown in Fig. P12.32 if viscous effects are negligible and the fluid is water. Pi = 735 kPa P2 = 550 kPa en 31 mm 31 mm 19 mm y=9.1 kN/m
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...
Q2 (10 pts): Water flow through a Venturi meter as shown in the figure below. Determine...
Q2 (10 pts): Water flow through a Venturi meter as shown in the figure below. Determine the discharge coefficient of the Venturi meter if the discharge is determined to be 2.12 cfs. 12 in Flow 4 in Water 9 in Mercury
Q2 (10 pts): Water flow through a Venturi meter as shown in the figure below. Determine...
Q2 (10 pts): Water flow through a Venturi meter as shown in the figure below. Determine the discharge coefficient of the Venturi meter if the discharge is determined to be 2.12 cfs. 12 in Flow 4 in Water 9 in Mercury
Kerosene with a specific gravity of 0.823 is flowing downward through the venturi meter shown in...
Kerosene with a specific gravity of 0.823 is flowing downward through the venturi meter shown in Figure 4 a) 100 mm inside diameter 50 mm inside diameter Mercury (SG 13.6) Figure 4: Venturi meter ) By using the Bemoulli and the continuity equations, show that the manometer deflection, h, in the Figure 4 is given by 15吸 31.05g (8 Marks) manometer deflection h is 700 mm, compute the volume flow rate of the
A vertical Venturi meter equipped with a differential U-tube manometer as shown in Figure , is...
A vertical Venturi meter equipped with a differential U-tube manometer as shown in Figure , is used to measure the flow rate of liquid propane at 10°C (p = 514.7 kg/m3) flowing through a 'd1' mm diameter vertical pipe. For a discharge coefficient of 'cd', determine the actual volume flow rate of propane through the pipe with the given data. Pipe dia., d1 = Throat dia., d2 = Vertical dist., Y1 = Vertical dist., Y2 = Disch. Coeff., Cd =...
A refinery uses a Venturi tube like the one shown in the figure to monitor the...
A refinery uses a Venturi tube like the one shown in the figure to monitor the flow of gasoline (? 7.00 × 102 kg/m3) through a hose. The inlet radius of the Venturi tube is 2.60 cm, the outlet radius is 1.70 cm, and the difference in pressure measured by the two gauges is P1 P21.70 kPa (a) Determine the speed of the gas as it leaves the Venturi tube. X m/s (b) Determine the volume flow rate of the...
The Venturi tube shown in the figure below may be used as a fluid flowmeter. Suppose...
The Venturi tube shown in the figure below may be used as a fluid flowmeter. Suppose the device is used at a service station to measure the flow rate of gasoline (p 7.00 x 102 kg/m3) through a hose having an outlet radius of 1.47 cm. The difference in pressure is measured to be P1 P2 1.10 kPa and the radius of the inlet tube to the meter is 2.94 cm (a) Find the speed of the gasoline as it...
A Venturi meter equipped with a differential pressure gage is used to measure the flow rate...
A Venturi meter equipped with a differential pressure gage is used to measure the flow rate of water at 15°C (p = 999.1 kg/m”) through a 5-cm- diameter horizontal pipe. The diameter of the Venturi neck is 3 cm, and the measured pressure drop is 5.1 kPa. Taking the discharge coefficient to be 0.98, determine the volume flow rate of water and the average velocity through the pipe. 5 cm 3 cm Differential pressure gage Is The volume flow rate...
Question 3 Deternine the volume flowrale of water through the vertical venturi meter shown below. The...
Question 3 Deternine the volume flowrale of water through the vertical venturi meter shown below. The density of water is ?,1,000 kgm' and the fud in the manometer is mercury with density p 13,530 kglm. Select one: O O a. 0.0187 m3/s b. 0.0171 m3/s c. 0.0208 m3/s O d. 0.0192 m/s
12.01 (CD 12.32 Determine the volumetric flow rate through the Venture meter shown in Fig. P12.32 if viscous effects are negligible and the fluid is water. Pi = 735 kPa P2 = 550 kPa en 31 mm 31 mm 19 mm y=9.1 kN/m
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...
Q2 (10 pts): Water flow through a Venturi meter as shown in the figure below. Determine the discharge coefficient of the Venturi meter if the discharge is determined to be 2.12 cfs. 12 in Flow 4 in Water 9 in Mercury
Q2 (10 pts): Water flow through a Venturi meter as shown in the figure below. Determine the discharge coefficient of the Venturi meter if the discharge is determined to be 2.12 cfs. 12 in Flow 4 in Water 9 in Mercury
Kerosene with a specific gravity of 0.823 is flowing downward through the venturi meter shown in Figure 4 a) 100 mm inside diameter 50 mm inside diameter Mercury (SG 13.6) Figure 4: Venturi meter ) By using the Bemoulli and the continuity equations, show that the manometer deflection, h, in the Figure 4 is given by 15吸 31.05g (8 Marks) manometer deflection h is 700 mm, compute the volume flow rate of the
A vertical Venturi meter equipped with a differential U-tube manometer as shown in Figure , is used to measure the flow rate of liquid propane at 10°C (p = 514.7 kg/m3) flowing through a 'd1' mm diameter vertical pipe. For a discharge coefficient of 'cd', determine the actual volume flow rate of propane through the pipe with the given data. Pipe dia., d1 = Throat dia., d2 = Vertical dist., Y1 = Vertical dist., Y2 = Disch. Coeff., Cd =...
A refinery uses a Venturi tube like the one shown in the figure to monitor the flow of gasoline (? 7.00 × 102 kg/m3) through a hose. The inlet radius of the Venturi tube is 2.60 cm, the outlet radius is 1.70 cm, and the difference in pressure measured by the two gauges is P1 P21.70 kPa (a) Determine the speed of the gas as it leaves the Venturi tube. X m/s (b) Determine the volume flow rate of the...
The Venturi tube shown in the figure below may be used as a fluid flowmeter. Suppose the device is used at a service station to measure the flow rate of gasoline (p 7.00 x 102 kg/m3) through a hose having an outlet radius of 1.47 cm. The difference in pressure is measured to be P1 P2 1.10 kPa and the radius of the inlet tube to the meter is 2.94 cm (a) Find the speed of the gasoline as it...
A Venturi meter equipped with a differential pressure gage is used to measure the flow rate of water at 15°C (p = 999.1 kg/m”) through a 5-cm- diameter horizontal pipe. The diameter of the Venturi neck is 3 cm, and the measured pressure drop is 5.1 kPa. Taking the discharge coefficient to be 0.98, determine the volume flow rate of water and the average velocity through the pipe. 5 cm 3 cm Differential pressure gage Is The volume flow rate...
Question 3 Deternine the volume flowrale of water through the vertical venturi meter shown below. The density of water is ?,1,000 kgm' and the fud in the manometer is mercury with density p 13,530 kglm. Select one: O O a. 0.0187 m3/s b. 0.0171 m3/s c. 0.0208 m3/s O d. 0.0192 m/s
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