When measuring small pressure differences with a manometer, often one arm of the manometer is inclined to improve the accuracy of reading. (The pressure difference is still proportional to the vertical distance and not the actual length of the fluid along the tube.) The air pressure in a circular duct is to be measured using a manometer whose open arm is inclined 45° from the horizontal, as shown in Fig. 1–112. The density of the liquid in the manometer is 0.81 kg/L, and the vertical distance between the fluid levels in the two arms of the manometer is 12 cm. Determine the gage pressure of air in the duct and the length of the fluid column in the inclined arm above the fluid level in the vertical arm.
When measuring small pressure differences with a manometer, often one arm of the manometer is inclined to improve the accuracy of reading. (The pressure difference is still proportional to the vertical distance and not the actual length of the fluid along the tube.) The air pressure in a circular duct is to be measured using a manometer whose open arm is inclined 45° from the horizontal, as shown in Fig. 1–112. The density of the liquid in the manometer is 0.81 kg/L, and the vertical distance between the fluid levels in the two arms of the manometer is 12 cm. Determine the gage pressure of air in the duct and the length of the fluid column in the inclined arm above the fluid level in the vertical arm.
Solution Summary: The author shows the free body diagram of the inclined manometer. Write the expression of gage pressure in duct.
When measuring small pressure differences with a manometer, often one arm of the manometer is inclined to improve the accuracy of reading. (The pressure difference is still proportional to the vertical distance and not the actual length of the fluid along the tube.) The air pressure in a circular duct is to be measured using a manometer whose open arm is inclined 45° from the horizontal, as shown in Fig. 1–112. The density of the liquid in the manometer is 0.81 kg/L, and the vertical distance between the fluid levels in the two arms of the manometer is 12 cm. Determine the gage pressure of air in the duct and the length of the fluid column in the inclined arm above the fluid level in the vertical arm.
A manometer is used to measure the pressure of a
gas in a tank. The fluid used has a specific gravity of
0.85, and the manometer column height is 55 cm, as
shown in Fig. 1-56. If the local atmospheric pressure
is 96 kPa, determine the absolute pressure within the
tank.
The pressure difference between two points as measured with a manometer is given as p2-p1=pgh .
The following figure shows a single u-tube manometer measuring pressure difference between point A and B.
By determining the pressure at point "a" through the left leg and then through the right leg,show the difference in pressure between point A and B is approximately given by PA-PB=g(h2-h1) (pH20)
A vacuum gauge connected to a steam condenser shows that the pressure inside the condenser is 0.751 bar below the atmospheric pressure. If the atmospheric pressure is 1.086 bar, what is the absolute pressure of the steam inside the condenser in kPa? answer in 3 decimal places.
Chapter 1 Solutions
Thermodynamics: An Engineering Approach ( 9th International Edition ) ISBN:9781260092684
Degarmo's Materials And Processes In Manufacturing
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