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690 ENGINEERING THERMODYNAMICS


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For compression process : cp = 1.005 kJ/kg K, γ = 1.4
For expansion process : cp = 1.11 kJ/kg K, γ = 1.333

2 ′ 3

Generator

1 4 ′

C.C.

T = 15 + 273
= 288 K

1

(a)

T = 610 + 273
= 883 K

3

T(K)

288

(b)

1

2 2 ′ 4 ′
4

3

s

p^1

p^2

883

Fig. 13.60
In order to evaluate the net work output it is necessary to calculate temperatures T 2 ′ and
T 4 ′. To calculate these temperatures we must first calculate T 2 and then use the isentropic efficiency.


For an isentropic process, T
T

p
p

2
1

2
1

(^1) 14 1
=F 6 14
HG
I
KJ


γ− −
γ
()
.


. = 1.67


∴ T 2 = 288 × 1.67 = 481 K

Also, ηcompressor =
TT
TT

21
21


′−

0.8 = 481 288
21


TT′−

∴ T 2 ′ = 481 288
08


.

+ 288 = 529 K

Similarly for the turbine,
T
T

p
p

p
p

3
4

3
4

1
2
1

(^1) 1 333 1
=F 6 1 333
HG
I
KJ


F
HG
I
KJ


γ−−−
γ
γ
γ
()
.


. = 1.565


∴ T 4 = T^3
5651.

883
1.565
= = 564 K

Also, ηturbine =

TT
TT

34 T
34

(^8834)
883 564
−′

= −′

∴ 0.82 =
883
883 564
−′ 4

T
∴ T 4 ′ = 883 – 0.82 (883 – 564) = 621.4 K

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