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736 ENGINEERING THERMODYNAMICS

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compression it becomes superheated at the end of compression as given by point 3. The process of

condensation which takes place at constant pressure is given by the line 3-4. The vapour now

reduced to saturated liquid is throttled through the expansion valve and the process is shown by

the line 4-1. At the point 1 a mixture of vapour and liquid enters the evaporator where it gets dry

saturated as shown by the point 2. The cycle is thus completed.

Heat extracted (or refrigerating effect produced),

Rn = h 2 – h 1

Work done, W = h 3 – h 2

∴ C.O.P. =

R

W

hh

hh

n= −

−

21

32

The values of h 1 , h 2 and h 3 can be directly read from p-h chart.

14.3.7. Factors Affecting the Performance of a Vapour Compression System

The factors which affect the performance of a vapour compression system are given below :

1. Effect of suction pressure. The effect of decrease in suction pressure is shown in
   Fig. 14.15.
   The C.O.P. of the original cycle,

C.O.P. =

hh

hh

21

32

−
−
The C.O.P. of the cycle when suction pres-
sure is decreased,

C.O.P. = hh

hh

21

32

′− ′

′− ′

=

()( )

()( )( )

hh hh

hh hh h h

21 2 2

32 22 3 3

−− −′
−+−′+′−
(Q h 1 = h 1 ′)
This shows that the refrigerating effect is decreased and work required is increased. The
net effect is to reduce the refrigerating capacity of the system (with the same amount of refriger-
ant flow) and the C.O.P.

2. Effect of delivery pressure. Fig. 14.16 shows the effect of increase in delivery pres-
   sure.
   C.O.P. of the original cycle,

C.O.P. =

hh

hh

21

32

−
−
C.O.P. of the cycle when delivery pressure
is increased,

C.O.P. =

hh

hh

hh h h

hh h h

21

32

21 1 1

32 3 3

−′

′−

=

−−′−

−+′−

()( )
()( )
The effect of increasing the delivery/dis-
charge pressure is just similar to the effect of
decreasing the suction pressure. The only differ-
ence is that the effect of decreasing the suction
pressure is more predominant than the effect of
increasing the discharge pressure.

Fig. 14.16. Effect of increase in delivery pressure

Fig. 14.15. Effect of decrease in suction pressure.