TITLE.PM5

(Ann) #1
466 ENGINEERING THERMODYNAMICS

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\M-therm\Th10-1.pm5

Solution. Corresponding to 30ºC, from steam tables, pvs = 0.0425 bar
∴ Relative humidity (R.H.), φ =

p
p

v
vs
i.e., 0.55 =

pv
0 0425.
∴ pv = 0.02337 bar.
Also the specific humidity,

W =

0 622 0 622 0 02337
1 0132 0 02337

...
..

p
pp

v
tv−

= ×
− = 0.01468 kg/kg of dry air.
The specific humidity after removing 0.004 kg of water vapour becomes,
0.01468 – 0.004 = 0.01068 kg/kg of dry air
and the temperature tdb is given as 20ºC.
The partial pressure of water vapour, pv, at this condition can be calculated as follows :


W
p
pp

v
tv

=

0 622.

0.01068 =

0 622
1 0132

.
.

p
p

v
− v
or, 0.01068 (1.0132 – pv) = 0.622 pv
or, 0.01082 – 0.01068 pv = 0.622 pv
0.6327 pv = 0.01082
∴ pv = 0.0171 bar
Corresponding to 20ºC, from steam tables, pvs = 0.0234 bar.

(i)Relative humidity, φ = p
p

v
vs

=0 0171
0 0234

.
.
= 0.73 or 73%. (Ans.)
(ii)Dew point temperature, tdp :
Corresponding to 0.0171 bar, from steam tables, tdp = 15 °C. (Ans.)
Example 10.4. The sling psychrometer in a laboratory test recorded the following readings :
Dry bulb temperature = 35°C
Wet bulb temperature = 25°C.
Calculate the following :
(i)Specific humidity (ii)Relative humidity
(iii)Vapour density in air (iv)Dew point temperature
(v)Enthalpy of mixture per kg of dry air
Take atmospheric pressure = 1.0132 bar.
Solution. For finding the partial pressure of vapour, using the equation :

pv = (pvs)wb – [()]( )
..

pp tt
t

tvswbdbwb
wb

−−
1527 4 1 3−
Corresponding to 25ºC (from steam tables),
(pvs)wb = 0.0317 bar
Substituting the values in the above equation, we get

pv = 0.0317 –
[.. ]( )
..

1 0132 0 0317 35 25
1527 4 1 3 25

−−
−×
= 0.0317 – 0.0065 = 0.0252 bar.
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