chapter 9 steam power cycle 9-1 the rankine cycle 9-1-1. vapor carnot cycle t s 1 23 4 there are...
TRANSCRIPT
![Page 1: chapter 9 Steam Power Cycle 9-1 The Rankine Cycle 9-1-1. Vapor Carnot cycle T s 1 23 4 There are some problems: (1)Compressor (2)turbine](https://reader036.vdocument.in/reader036/viewer/2022081514/56649dd25503460f94ac80ed/html5/thumbnails/1.jpg)
chapter 9 Steam Power Cycle
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9-1 The Rankine Cycle
9-1-1. Vapor Carnot cycle
T
s
1
2 3
4
There are some problems:
(1) Compressor
(2) turbine
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9-1-2. Rankine cycle
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Trained as a civil engineer, William Rankine (1820-1872)was appointed to the chairman of civil engineering and mechanics at Glasgow in 1855. He worked on heat, and attempted to derive Sadi Carnot's law from his own hypothesis. He was elected a Fellow of the Royal Society in 1853. Among his most important works are Manual of Applied Mechanics (1858), Manual of the Steam Engine and Other Prime Movers (1859) .
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9-1-3. The efficiency of Rankine cycle
qabsorb= h2 - h1
qexhaust= h3 – h4
absorb
exhaustabsorb
q
12
4312 )(
hh
hhhh
12
4312 )
hh
hhhh
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Usually, The properties: p1, t1 and p2 are available for a power plant,then:
h1: From p1, t1 , get h1 , s1
h2: From p2 , get s2’ , s3”
h2’ , h2”
')1(" 2212 sxxsss
So, x can be known
')1(" 222 hxxhh
h3: From p2 , get h2’ , s2’ .
h3= h3’ s3= s3’
h4: From p1 , s1= s4 get h4
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9-2 The Influence of Steam Property
9-2-1. Exhaust Pressure
To decrease the exhaust pressure can increase the efficiency of Rankine cycle.
But the dryness fraction will increase too. This can lead some damage to steam turbine
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9-2-2. Inlet temperature
To decrease the inlet temperature can increase the efficiency of Rankine cycle.
But this increase depends on boiler material
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9-2-3. Inlet pressure
To increase the inlet pressure can increase the efficiency of Rankine cycle greatly.
But this increase also depends on boiler material
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boiler
condenser
Feed water pump
Steam turbine
9-3-1 Equipments of Reheat Cycle
Reheater Reheater
9-3 Reheat Cycle
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9-3-2 Efficiency
T-s diagram Efficiency
)()( 41 mnin hhhhq
32 hhqexhaust
exhaustin qqw
inq
w
)()(
)()()(
11
3241
nm
mn
hhhh
hhhhhh
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The properties: p1, t1 , pm , tn (equals t1 usually), p2 are available for a reheat power plant,then:
h1: From p1, t1 , get h1 , s1
hm: From p2 , s2 =s1, get hm
hn: From pm , tn , get hn
h2: From p2 , get s2’ , s3”
h2’ , h2”
')1(" 222 sxxsss n
So, x can be known
')1(" 222 hxxhh
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h3: From p2 , get h2’ , s2’ .
h3= h3’ s3= s3’
h4: From p1 , s1= s4 get h4
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9-4 Regenerative Cycle9-4-1 Ideal Regenerative Cycle
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9-4-2 Regenerative Cycle
boiler
condenser
Feed water pump
Steam turbine
Feed water heater
Steam
drainage pump
1
2
3
4
56
a
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T
s
1
23
45
6
1
1
The feed water is heated by steam bleeding out from steam turbine. The average temperature of heat absorption process increases then.
%100 turbine theentering steam of flow The
turbine thefromout bleeding steam of flow The
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boiler
condenser
Feed water pump
Steam turbine
Feed water heater
drainage pump
1
2
3
4
57
a
6
b
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T
s
1
23
4 5
62
211
17
1
The more stages of bleeding steam, the higher efficiency the cycle has
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9-4-2 The efficiency of regenerative CycleAs to a two stages regenerative cycle,the properties: p1, t1 , pa , pb , p2 are available. If neglect the pump work, the T-s diagram should be as following.T
s
1
234
5 2
211
11
a
b6
61in hhq
)1)(( 2132exhaust hhq
exhaustin qqw
in
exhaustin
q
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The enthalpy of each point
h1: From p1 , t1, get h1 , s1
ha: From pa , s1, get ha
hb: From pb , s1, get hb
T
s
1
234
5 2
211
11
a
b6
h2: From p2 , get s2’ , s3”
h2’ , h2”
')1(" 2212 sxxsss So, x can be known
')1(" 222 hxxhh
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T
s
1
234
5 2
211
11
a
b6
h3: From p2 , get h2’ , h3= h2’
h5: From pb , get hb’ , h5= h
b’ h6: From pa , get ha’ , h6= ha’
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21 and
As to the 1st stage heater
ha
h5h6
1
1 1
According to the first law of thermodynamics
ahhh 1156 )1(
5
561 hh
hh
a
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As to the 2nd stage heater
According to the first law of thermodynamics
bhhh 221415 )1()1(
4
4512
))(1(
hh
hh
b
hb
h4h5
2
1 121 - 1
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9-5 Other Steam Power Cycle9-5-1 Super-critical Cycle
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9-5-2 The Combined Gas-Vapor Power Cycle
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9-5-2 Binary-vapor Cycle
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The End of This Chapter
Thank you