Heat Exchanger Network Synthesis (Pinch Analysis)rb/Professional Activities/PinchTEQIP16.pdf ·...
Transcript of Heat Exchanger Network Synthesis (Pinch Analysis)rb/Professional Activities/PinchTEQIP16.pdf ·...
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Heat Exchanger Network Synthesis (Pinch Analysis)
Rangan Banerjee
Department of Energy Science and Engineering
IIT Bombay
Lecture in KIC-TEQIP programme on Energy Management and Energy Efficiency - IITG - 24th May 2016
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Heat Exchanger Network Synthesis (Pinch Analysis)
200C
Steam 1200C
800C
2kW/0C
Heating
200C
2kW/0C
800C
Steam 1200C
Source: Linnhoff
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Heat Exchanger Network Synthesis (Pinch Analysis)
300C
900C 1500C
1500C
300C
900C
500C
2kW/0C
2kW/0C
Cooling500C
Source: Linnhoff
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Alternative Network
120kW
120kW
900C 1500C
800C 200C
900C
200C 800C
1500C
Source: Linnhoff
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TUAQ Integration
As decreases, expect Area to increase
But if Q decreases, Area may also decrease
120 = (UA) 70
UA = 1.7 kW/k
Total UA = 3.4 kW/k
In earlier case total UA = 6.44 kW/k
Hence cost energy
T
Area and Energy
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Problem Definition
Grass root design
t
s
T
T
ST HTTCPCPdTQ )(
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Problem Definition
Stream No. Type CP (kW/0C) Ts0C Tt
0C
1 C 2.0 20 135
2 H 3.0 170 60
3 C 4.0 80 140
4 H 1.5 150 130
CT 0
min 10 Utilities steam at 2000C cooling water at 150C
Source: Linhoff
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Parallel grid representation
H 2
H 4
C 1
C 3
1700C
1500C
1350C
1400C
600
300
200
800
3.0
1.5
2.0
4.0
CP (kW/0C)
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Data Specification
Set of hot streams to be cooled and set of cold streams to be heated
Inlet and outlet temperatures (Tin, Tout) of steams
Flow rates (m) of streams
Specific heats (Cp) and heat transfer Coefficients with dependence on temperature
Allowable
Additional constraints
Plant layout, safety, flexibility, controllability, operability.
P
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Temperature – Enthalpy diagram
Tt
H = CP(Tt-Ts)
T
kWH
Ts
0C
CPdt
dH
CPdH
dT 1Slope =
If Ts > Tt Hot stream
Ts < Tt Cold stream
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Cold Streams
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Cold Composite Curve
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Hot Streams
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Hot Composite Curves
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Pinch Analysis
0
20
40
60
80
100
120
140
160
180
Enthalpy (H)
Te
mp
era
ture
(o
C)
HCC
CCC
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Pinch Analysis
0
20
40
60
80
100
120
140
160
180
Enthalpy (H)
Te
mp
era
ture
(o
C)
∆T=10oC
QC=60 kW
QH=20 kW
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Design rules
No heat transfer across Pinch
No cold utilities above Pinch
No hot utilities below Pinch
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Pinch
H
T
Pinch H
C
C
QC,min
C-C Cold Composite
H-H Hot Composite
QH,min
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H=-60kW
H=-2.5kW
H=+82.5kW
H=-75kW
H=+15kW
1650C
550C
850C
1450C
1400C
250C
1
2
4
5
3
0 kW
-20 kW
55 kW
40 kW
60 kW
62.5 kW
20 kW
82.5 kW
0 kW
75 kW
60 kW
80 kW
To Cold Utility To Cold Utility
From Hot Utility From Hot UtilityHEAT CASCADE
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2
4
1
3
1700 900 900600
800
1400
900 900
800200
300
800
1350
1500
4.0
2.0
1.5
3.0
QC MIN =60 kW
PINCH QH MIN = 20 kW
CP kW/0C
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DESIGN
H
2 I III
4 CII IV
1
3
1700 900 600
1500900 700 300
13501250 800 350 200
1400 800
240kW
90kW 90kW 30kW
60kW
20kW
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Eulers Theorem
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Targeting no of units
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Energy Relaxation
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H
2 I III
4 CII
1
3
1500T2 300
1350 650 200
240
120-X 90
60+X
20+X
PATH
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H
2 I III
4 CII
1
3
1500300
1350 650 200
240
112.5 90
67.5
27.5
u = uMIN = 5
750
6009001700
1210
1400800
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References
1. B. Linhoff, User Guide on Process Integration for the Efficient Use of Energy IChem E (1984), London.
2. U. V. Shenoy, Heat Exchanger Network Synthesis, Gulf Publishing Company, Houston, Texas, 1995.
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