TITLE.PM5

(Ann) #1
44 ENGINEERING THERMODYNAMICS

dharm
M-therm/th2-2.pm5


Fig. 2.25

= 13640 × 9.79

761
1000

550
+ 1000
F
H

I
K = 13640 × 9.79 (0.761 + 0.55)
= 175.065 × 10^3 N/m^2 = 175.065 kPa = 1.75 bar. (Ans.)
Example 2.7. A U-tube mercury manometer with one arm open to atmosphere is used to
measure pressure in a steam pipe. The level of mercury in open arm is 97.5 mm greater than that
in the arm connected to the pipe. Some of steam in the pipe condenses in the manometer arm
connected to the pipe. The height of this column is 34 mm. The atmospheric pressure is 760 mm
of Hg. Find the absolute pressure of steam. (Poona University, Nov. 1997)
Solution. Equating the pressure in mm of Hg on both
arms above the line XX (Fig. 2.26), we get
pabs. + pwater = pHg + patm.

Now, pwater = 136.^34 = 2.5 mm of Hg.
∴ pabs + 2.5 = 97.5 + 760
or pabs = 97.5 + 760 – 2.5
= 855 mm of Hg.
= 855 × pHg × g × 10–5 bar

= 1000855 (m) × (13.6 × 1000) (kg/m^3 )
× 9.81 × 10–5
= 1.1407 bar. (Ans.)
Example 2.8. A U-tube manometer is connected to a gas pipe. The level of the liquid in the
manometer arm open to the atmosphere is 170 mm lower than the level of the liquid in the arm
connected to the gas pipe. The liquid in the manometer has specific gravity of 0.8. Find the
absolute pressure of the gas if the manometer reads 760 mm of Hg.
(Poona University, Dec. 2000)

Fig. 2.26
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