630 ENGINEERING THERMODYNAMICS
dharm
\M-therm\Th13-3.pm5
s
T
p = Const.
3
4
2
1
v = Const.
v
p
4
1
2 3
Adiabatic
Adiabatic
Fig. 13.15
volume increases from V 2 to V 3 and temperature T 2 to T 3 , corresponding to point 3. This point (3)
is called the point of cut-off. The air then expands adiabatically to the conditions p 4 , V 4 and T 4
respectively corresponding to point 4. Finally, the air rejects the heat to the cold body at constant
volume till the point 1 where it returns to its original state.
Consider 1 kg of air.
Heat supplied at constant pressure = cp(T 3 – T 2 )
Heat rejected at constant volume = cv(T 4 – T 1 )
Work done = Heat supplied – heat rejected
= cp(T 3 – T 2 ) – cv(T 4 – T 1 )
∴ηdiesel = Work done
Heat supplied
=
cT T cT T
cT T
p v
p
()()
()
32 41
32
−− −
−
= 1 –
()
()
TT
TT
41
32
−
−γ ...(i)
Q
c
c
p
v
=
L
N
M
O
Q
γP
Let compression ratio, r = v
v
1
2
, and cut-off ratio, ρ = v
v
3
2
i.e., Volume at cut-off
Clearance volume
Now, during adiabatic compression 1-2,
T
T
2
1
= v
v
(^1) r
2
1
F 1
HG
I
KJ
−
−
γ
()γ or T
2 = T 1. ()r
γ−^1
During constant pressure process 2-3,
T
T
3
2
v
v
3
2
= ρ or T 3 = ρ. T 2 = ρ. T 1. ()rγ−^1
During adiabatic expansion 3-4
T
T
3
4
v
v
4
3
F^1
HG
I
KJ
−γ