TITLE.PM5

(Ann) #1
702 ENGINEERING THERMODYNAMICS

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\M-therm\Th13-6.pm5

(b)

T(K)

293
3

4 4 ¢

7

1

2 ¢
2

5

7 ¢

68

9 ¢

9

10

898

s

Fig. 13.67

Also, T
T

p
p

2
1

2
1

1
=
F
HG

I
KJ

−γ
γ
and p
p

2
1

= 9 = 3

∴ T 2 = (20 + 273) × ()

.
3.

14 1
14


= 401 K

Now, ηcompressor (L.P.) =

TT
TT

21
21


′−

0.8 =

401 293
2 293


T′−

i.e., T 2 ′ =
401 298
08


. + 293 = 428 K
Work input per compressor stage
= cpa(T 2 ′ – T 1 ) = 1.005 (428 – 293) = 135.6 kJ/kg
The H.P. turbine is required to drive both compressors and to overcome mechanical friction.


i.e., Work output of H.P. turbine =
2 135 6
095


×.
.
= 285.5 kJ/kg
∴ cpg (T 6 – T 7 ′) = 285.5
i.e., 1.15 (898 – T 7 ′) = 285.5

∴ T 7 ′ = 898 –
285.5
1.15 = 650 K
Now, ηturbine (H.P.) =

TT
TT

67
67

−′
− ; 0.85 =

898 650

(^8987)

−T

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