GAS POWER CYCLES 621
dharm
\M-therm\Th13-2.pm5
p (bar)
V(m )^3
Adiabatic
compression
Heat addition at
constant volume
3
7 2
1 1
p-Vdiagram T-sdiagram
s(kJ/kg K)
Adiabatic
Constant volume
3
2
T(K)
1262.3
603.7
(^3431)
Fig. 13.10
or
V
V
1
2
F
HG
I
KJ
γ
= p
p
2
1
or ()rγ = p
p
2
1
Q V
V
(^1) r
2
F
HG
I
KJ
or r = p
p
2
1
1
F
HG
I
KJ
γ
=^7
1
1
F^41
HG
I
KJ
- = (7)0.709 = 3.97
Hence compression ratio of the engine = 3.97. (Ans.)
(ii)Temperature at the end of compression, T 2 :
In case of adiabatic compression 1-2,
T
T
2
1
=
V
V
1
2
F^1
HG
I
KJ
−γ
= (3.97)1.41 – 1 = 1.76
∴ T 2 = 1.76 T 1 = 1.76 × 343 = 603.7 K or 330.7°C
Hence temperature at the end of compression = 330.7°C. (Ans.)
(iii)Temperature at the end of heat addition, T 3 :
According to constant volume heating operation 2-3
Qs = cv (T 3 – T 2 ) = 465
0.706 (T 3 – 603.7) = 465
or T 3 – 603.7 =
465
7060.
or T 3 =^465
7060.
- 603.7 = 1262.3 K or 989.3°C
Hence temperature at the end of heat addition = 989.3°C. (Ans.)
Example 13.12. In a constant volume ‘Otto cycle’, the pressure at the end of compression
is 15 times that at the start, the temperature of air at the beginning of compression is 38°C and
maximum temperature attained in the cycle is 1950°C. Determine :