734 ENGINEERING THERMODYNAMICS
dharm
\M-therm\Th14-2.pm5
Liquid
line
dg f
s (Entropy)
Saturation
line
Rn
T 2 a
b
12
e
Evaporation
Compression
W
Expansion
T (Temp.)
T 1
43 Condensation
Fig. 14.12. T-s diagram.
14.3.5. Pressure-enthalpy (p-h) chart
The diagram commonly used in the analysis of the refrigeration cycle are :
(i) Pressure-enthalpy (p-h) chart (ii) Temperature-entropy (T-s) chart.
Of the two, the pressure-enthalpy diagram seems to be the more useful.
The condition of the refrigerant in any thermodynamic state can be represented as a point
on the p-h chart. The point on the p-h chart that represents the condition of the refrigerant in any
one particular thermodynamic state may be located if any two properties of the refrigerant for that
state are known, the other properties of the refrigerant for that state can be determined directly
from the chart for studying the performance of the machines.
Constant
pressure line
Constant
pressure line
Constant enthalpy lineConstant enthalpy line
Enthalpy
Pressure
Constant temp. line
Sub-cooled liquid region
Co
ns
tan
td
ryn
es
s
fra
ct
ion
lin
e
Co
ns
tan
td
ryn
es
s
fra
ct
ion
lin
e Constant temperature lineConstant temperature line
Dry saturated vapour line
Constant entropy
line
Constant entropy
line
Specific
volume
line
Specific volume
line
Specific volume
line
Two phase
region or
wet region
Saturated liquid line
Fig. 14.13. Pressure enthalpy (p-h) chart.