Heat Exchangers
portes grátis
Heat Exchangers
Design and Sizing Algorithms
Benallou, Abdelhanine
ISTE Ltd and John Wiley & Sons Inc
06/2024
368
Dura
Inglês
9781786302861
15 a 20 dias
666
Descrição não disponível.
Introduction xi
Chapter 1 Available Technologies 1
1.1 Introduction 1
1.2 The simplest form of heat exchanger: single-tube or coaxial 1
1.3 Shell-and-tube heat exchangers 2
1.4 Coil-in-tank heat exchangers 3
1.5 Compact heat exchangers 5
1.6 Rotary regenerative heat exchangers 15
1.7 Phase-change heat exchangers 16
1.8 Heat exchangers for power electronics 23
Chapter 2 Tubular Heat Exchanger Design 33
2.1 Introduction 33
2.2 Coaxial tubular heat exchangers 34
2.3 Tubular coil-in-tank heat exchangers 34
2.4 Multitube heat exchanger technology 36
2.5 Flow in a tubular heat exchanger 46
2.6 Position of transverse baffles and flow parameters 48
2.7 Calculation of the Reynolds number for flow in the shell 54
3 Compact Heat Exchanger Design 59
3.1 Introduction 59
3.2 General parameters of compact heat exchangers 60
3.3 Finned-tube compact heat exchanger technology and design 62
3.4 Plate-fin heat exchanger technology and design 67
3.5 Plate heat exchanger technology and design 73
3.6 Spiral heat exchanger technology 81
3.7 Printed-circuit heat exchanger technology and design 84
3.8 New developments in compact heat exchangers 89
Chapter 4 Heat Exchanger Selection, and Sizing Parameters 91
4.1 Introduction 91
4.2 Choosing the type of heat exchanger to be used 92
4.3 Selection of fluid circuits: which fluid for what side? 96
4.4 Choosing the flow configuration 97
4.5 Illustration: choosing a heat exchanger and determining its thermal schedule 97
4.6 Sizing, a complex problem 99
Chapter 5 Sizing Methods 109
5.1 Introduction 109
5.2 Analysis of temperature profiles in an exchanger 110
5.3 Overall heat transfer coefficient 112
5.4 Illustration: overall heat transfer coefficient for a fouled exchanger 119
5.5 Calculation of the heat flux transferred 122
5.6 Method based on the calculation of efficiency: NTU method 124
5.7 Method based on logarithmic mean temperature difference 138
Chapter 6 Sizing Algorithms for Heat Exchangers 153
6.1 Introduction 153
6.2 Principle of heat exchanger sizing 154
6.3 Calculation algorithm for multitube heat exchangers 155
6.4 Illustration: implementation of the shell-and-tube algorithm 162
6.5 Calculation algorithm for cross-flow heat exchangers 175
6.6 Illustration: sizing of car radiators 185
6.7 Calculation algorithm for plate heat exchangers 197
6.8 Illustration: implementation of the plate heat exchanger algorithm 202
6.9 Calculation algorithm for spiral heat exchangers 211
6.10 Illustration: implementation of the spiral heat exchanger algorithm 213
6.11 Calculation algorithm for printed-circuit heat exchangers 221
6.12 Illustration: implementation of the PCHE calculation algorithm 225
Appendices 233
Appendix 1 Database 235
Appendix 2 Calculation of Convection Heat Transfer Coefficients in Exchangers 269
Appendix 3 Calculation of Pressure Drops in Exchangers 299
Appendix 4 Fouling of Heat Exchangers 315
Appendix 5 Nomenclature 321
References 327
Index 339
Chapter 1 Available Technologies 1
1.1 Introduction 1
1.2 The simplest form of heat exchanger: single-tube or coaxial 1
1.3 Shell-and-tube heat exchangers 2
1.4 Coil-in-tank heat exchangers 3
1.5 Compact heat exchangers 5
1.6 Rotary regenerative heat exchangers 15
1.7 Phase-change heat exchangers 16
1.8 Heat exchangers for power electronics 23
Chapter 2 Tubular Heat Exchanger Design 33
2.1 Introduction 33
2.2 Coaxial tubular heat exchangers 34
2.3 Tubular coil-in-tank heat exchangers 34
2.4 Multitube heat exchanger technology 36
2.5 Flow in a tubular heat exchanger 46
2.6 Position of transverse baffles and flow parameters 48
2.7 Calculation of the Reynolds number for flow in the shell 54
3 Compact Heat Exchanger Design 59
3.1 Introduction 59
3.2 General parameters of compact heat exchangers 60
3.3 Finned-tube compact heat exchanger technology and design 62
3.4 Plate-fin heat exchanger technology and design 67
3.5 Plate heat exchanger technology and design 73
3.6 Spiral heat exchanger technology 81
3.7 Printed-circuit heat exchanger technology and design 84
3.8 New developments in compact heat exchangers 89
Chapter 4 Heat Exchanger Selection, and Sizing Parameters 91
4.1 Introduction 91
4.2 Choosing the type of heat exchanger to be used 92
4.3 Selection of fluid circuits: which fluid for what side? 96
4.4 Choosing the flow configuration 97
4.5 Illustration: choosing a heat exchanger and determining its thermal schedule 97
4.6 Sizing, a complex problem 99
Chapter 5 Sizing Methods 109
5.1 Introduction 109
5.2 Analysis of temperature profiles in an exchanger 110
5.3 Overall heat transfer coefficient 112
5.4 Illustration: overall heat transfer coefficient for a fouled exchanger 119
5.5 Calculation of the heat flux transferred 122
5.6 Method based on the calculation of efficiency: NTU method 124
5.7 Method based on logarithmic mean temperature difference 138
Chapter 6 Sizing Algorithms for Heat Exchangers 153
6.1 Introduction 153
6.2 Principle of heat exchanger sizing 154
6.3 Calculation algorithm for multitube heat exchangers 155
6.4 Illustration: implementation of the shell-and-tube algorithm 162
6.5 Calculation algorithm for cross-flow heat exchangers 175
6.6 Illustration: sizing of car radiators 185
6.7 Calculation algorithm for plate heat exchangers 197
6.8 Illustration: implementation of the plate heat exchanger algorithm 202
6.9 Calculation algorithm for spiral heat exchangers 211
6.10 Illustration: implementation of the spiral heat exchanger algorithm 213
6.11 Calculation algorithm for printed-circuit heat exchangers 221
6.12 Illustration: implementation of the PCHE calculation algorithm 225
Appendices 233
Appendix 1 Database 235
Appendix 2 Calculation of Convection Heat Transfer Coefficients in Exchangers 269
Appendix 3 Calculation of Pressure Drops in Exchangers 299
Appendix 4 Fouling of Heat Exchangers 315
Appendix 5 Nomenclature 321
References 327
Index 339
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
energy engineering; heat exchangers; solar power plants; communications technologies; small modular reactors; shell-and-tube exchangers; plate-fin heat exchangers; spiral heat exchangers; cross-flow tube-fin heat exchangers; phase-change micro-exchangers; spray coolers; heat pipe heat exchangers; evaporation chambers
Introduction xi
Chapter 1 Available Technologies 1
1.1 Introduction 1
1.2 The simplest form of heat exchanger: single-tube or coaxial 1
1.3 Shell-and-tube heat exchangers 2
1.4 Coil-in-tank heat exchangers 3
1.5 Compact heat exchangers 5
1.6 Rotary regenerative heat exchangers 15
1.7 Phase-change heat exchangers 16
1.8 Heat exchangers for power electronics 23
Chapter 2 Tubular Heat Exchanger Design 33
2.1 Introduction 33
2.2 Coaxial tubular heat exchangers 34
2.3 Tubular coil-in-tank heat exchangers 34
2.4 Multitube heat exchanger technology 36
2.5 Flow in a tubular heat exchanger 46
2.6 Position of transverse baffles and flow parameters 48
2.7 Calculation of the Reynolds number for flow in the shell 54
3 Compact Heat Exchanger Design 59
3.1 Introduction 59
3.2 General parameters of compact heat exchangers 60
3.3 Finned-tube compact heat exchanger technology and design 62
3.4 Plate-fin heat exchanger technology and design 67
3.5 Plate heat exchanger technology and design 73
3.6 Spiral heat exchanger technology 81
3.7 Printed-circuit heat exchanger technology and design 84
3.8 New developments in compact heat exchangers 89
Chapter 4 Heat Exchanger Selection, and Sizing Parameters 91
4.1 Introduction 91
4.2 Choosing the type of heat exchanger to be used 92
4.3 Selection of fluid circuits: which fluid for what side? 96
4.4 Choosing the flow configuration 97
4.5 Illustration: choosing a heat exchanger and determining its thermal schedule 97
4.6 Sizing, a complex problem 99
Chapter 5 Sizing Methods 109
5.1 Introduction 109
5.2 Analysis of temperature profiles in an exchanger 110
5.3 Overall heat transfer coefficient 112
5.4 Illustration: overall heat transfer coefficient for a fouled exchanger 119
5.5 Calculation of the heat flux transferred 122
5.6 Method based on the calculation of efficiency: NTU method 124
5.7 Method based on logarithmic mean temperature difference 138
Chapter 6 Sizing Algorithms for Heat Exchangers 153
6.1 Introduction 153
6.2 Principle of heat exchanger sizing 154
6.3 Calculation algorithm for multitube heat exchangers 155
6.4 Illustration: implementation of the shell-and-tube algorithm 162
6.5 Calculation algorithm for cross-flow heat exchangers 175
6.6 Illustration: sizing of car radiators 185
6.7 Calculation algorithm for plate heat exchangers 197
6.8 Illustration: implementation of the plate heat exchanger algorithm 202
6.9 Calculation algorithm for spiral heat exchangers 211
6.10 Illustration: implementation of the spiral heat exchanger algorithm 213
6.11 Calculation algorithm for printed-circuit heat exchangers 221
6.12 Illustration: implementation of the PCHE calculation algorithm 225
Appendices 233
Appendix 1 Database 235
Appendix 2 Calculation of Convection Heat Transfer Coefficients in Exchangers 269
Appendix 3 Calculation of Pressure Drops in Exchangers 299
Appendix 4 Fouling of Heat Exchangers 315
Appendix 5 Nomenclature 321
References 327
Index 339
Chapter 1 Available Technologies 1
1.1 Introduction 1
1.2 The simplest form of heat exchanger: single-tube or coaxial 1
1.3 Shell-and-tube heat exchangers 2
1.4 Coil-in-tank heat exchangers 3
1.5 Compact heat exchangers 5
1.6 Rotary regenerative heat exchangers 15
1.7 Phase-change heat exchangers 16
1.8 Heat exchangers for power electronics 23
Chapter 2 Tubular Heat Exchanger Design 33
2.1 Introduction 33
2.2 Coaxial tubular heat exchangers 34
2.3 Tubular coil-in-tank heat exchangers 34
2.4 Multitube heat exchanger technology 36
2.5 Flow in a tubular heat exchanger 46
2.6 Position of transverse baffles and flow parameters 48
2.7 Calculation of the Reynolds number for flow in the shell 54
3 Compact Heat Exchanger Design 59
3.1 Introduction 59
3.2 General parameters of compact heat exchangers 60
3.3 Finned-tube compact heat exchanger technology and design 62
3.4 Plate-fin heat exchanger technology and design 67
3.5 Plate heat exchanger technology and design 73
3.6 Spiral heat exchanger technology 81
3.7 Printed-circuit heat exchanger technology and design 84
3.8 New developments in compact heat exchangers 89
Chapter 4 Heat Exchanger Selection, and Sizing Parameters 91
4.1 Introduction 91
4.2 Choosing the type of heat exchanger to be used 92
4.3 Selection of fluid circuits: which fluid for what side? 96
4.4 Choosing the flow configuration 97
4.5 Illustration: choosing a heat exchanger and determining its thermal schedule 97
4.6 Sizing, a complex problem 99
Chapter 5 Sizing Methods 109
5.1 Introduction 109
5.2 Analysis of temperature profiles in an exchanger 110
5.3 Overall heat transfer coefficient 112
5.4 Illustration: overall heat transfer coefficient for a fouled exchanger 119
5.5 Calculation of the heat flux transferred 122
5.6 Method based on the calculation of efficiency: NTU method 124
5.7 Method based on logarithmic mean temperature difference 138
Chapter 6 Sizing Algorithms for Heat Exchangers 153
6.1 Introduction 153
6.2 Principle of heat exchanger sizing 154
6.3 Calculation algorithm for multitube heat exchangers 155
6.4 Illustration: implementation of the shell-and-tube algorithm 162
6.5 Calculation algorithm for cross-flow heat exchangers 175
6.6 Illustration: sizing of car radiators 185
6.7 Calculation algorithm for plate heat exchangers 197
6.8 Illustration: implementation of the plate heat exchanger algorithm 202
6.9 Calculation algorithm for spiral heat exchangers 211
6.10 Illustration: implementation of the spiral heat exchanger algorithm 213
6.11 Calculation algorithm for printed-circuit heat exchangers 221
6.12 Illustration: implementation of the PCHE calculation algorithm 225
Appendices 233
Appendix 1 Database 235
Appendix 2 Calculation of Convection Heat Transfer Coefficients in Exchangers 269
Appendix 3 Calculation of Pressure Drops in Exchangers 299
Appendix 4 Fouling of Heat Exchangers 315
Appendix 5 Nomenclature 321
References 327
Index 339
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
energy engineering; heat exchangers; solar power plants; communications technologies; small modular reactors; shell-and-tube exchangers; plate-fin heat exchangers; spiral heat exchangers; cross-flow tube-fin heat exchangers; phase-change micro-exchangers; spray coolers; heat pipe heat exchangers; evaporation chambers
