Determine the discharge in the 40-cm diameter waterline shown below. The nozzle meter has a throat diameter of 16 cm and is built and installed according to the ASME standard. The distance between the taps is 25 cm.
Determine the discharge in the 40-cm diameter waterline shown below. The nozzle meter has a throat...
Prob5 A venture meter having a throat diameter of 150 mm is installed in a horizontal 300-mm-diameter water main, as shown in figure below. The discharge coefficient, C = 0.982. Determine the difference in level of the mercury columns of differential manometer attached to the Venturi meter if discharge is 0.142 m/s. Flog Mercury
Open with Google Docs ▼ Question 3 Calculate the flow rate of water in a pipe of 30 cm diameter placed in an inclined position where a venturi meter is inserted, having a throat diameter of 15 cm. The difference of pressure between the main and throat is measured by a liquid of s.g. 0.6 in an inverted U-tube which gives a reading of 30 cm. The loss of head between the main and throat is 0.2 times the kinetic...
A venturi meter with a diameter of 30 cm at the entrance and 15
cm at the throat, is connected to a vertical pipe of diameter 30cm
carrying oil of specific gravity 0.9. The difference in elevation
of the throat section and the entrance of the venturi meter is 30
cm. The mercury manometer shows a gauge deflection of x =
1000mm.
Determine
1) the discharge of oil; and
2) the pressure difference between the entrance section and
throat section....
(c) A venturi meter is mounted in a pipeline of diameter 150 mm, which is inclined at 30° from the horizontal. Water is flowing upwards through the pipeline. The throat diameter of the venturi meter is 90 mm. One static pressure tapping is located at the throat and another 0.3 m upstream in the pipeline. The pressure difference measured between the two tappings is 200 mm of mercury. The coefficient of discharge for the meter is 0.97. Determine the actual...
Venturi meter provided in a vertical pipeline carries oil of specific gravity 0.88 as shown in the Figure below. The diameter at the entrance and throat are 30 cm and 15 cm, respectively. A U-tube manometer filled with mercury of density 13600kg/m3 is connected to the entrance and throat of the meter . The height difference between the throat and entrance is 30cm. if the actual flow rate is 80 L/s and the coefficient of discharge of the meter is...
fluid
Q1: A venture meter is fitted in a pipe of 30 cm diameter inclined at 40° to the horizontal to measure the flow rate of petrol having a specific gravity of 0.8. The ratio of areas of main pipe and throat is 5 and the throat is at 1 m from the inlet along its length. The difference in manometer head is 40 mm of mercury. Assuming the coefficient of discharge as 0.96. Calculate the discharge through the venture...
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
Question 3 (40 marks) (a) Air enters a horizontal nozzle with a velocity of 1 m/s, a pressure of 2 bar and a temperature of 350 K. At exit from nozzle, the air temperature is 450 K. The combined rate of specific heat transfers, and specific work transfers, w to the air as it passes through the nozzle is 150 kJ/kg. Assume that the air flow is steady and air can be treated as perfect gas with = 1005 J/(kg.K)....
thermaldynamics and fluid mechanics
Question 4 An orifice plate flow meter, as shown in figure Q4, is situated in a horizontal pipe of 95 cm diameter (d) in which water flows. The pressure difference between the vena contracta and flow upstream at point 1 is measured using a differential manometer. The diameter of the sharp-edged orifice (d.) is 35 cm. The coefficient of discharge for the flow meter is 0.7, and the coefficient of contraction is 0.62. Assume the density...