Verfügbarkeit: Optimization of energy systems

Optimization of energy systems:

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Dincer, Ibrahim 1964- (VerfasserIn), Rosen, Marc 1958- (VerfasserIn), Ahmadi, Pouria (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Chichester, West Sussex, UK Wiley 2017
Schlagworte:	Power (Mechanics) Power resources Energy conservation Sustainable engineering Kraftwerkstechnik Energiemanagement Energietechnik Optimierung Kraftwerk
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	xvi, 453 Seiten Illustrationen, Diagramme
ISBN:	9781118894439

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Datensatz im Suchindex

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adam_text	Contents $ Acknowledgements xiii Preface xv 1 Thermodynamic Fundamentals 1 2.1 Introduction 1 1.2 Thermodynamics 1 1.3 The First Law of Thermodynamics 2 1.3.1 Thermodynamic System 3 1.3.2 Process 3 2.3.3 Cycle 3 1.3.4 Heat 4 1.3.5 Work 4 1.3.6 Thermodynamic Property 4 1.3.6.1 Specific Internal Energy 4 2.3.6.2 Specific Enthalpy 5 1.3.6.3 Specific Entropy 5 1.3.7 Thermodynamic Tables 5 1.3.8 Engineering Equation Solver (EES) 6 1.4 The Second Law of Thermodynamics 12 1.5 Reversibility and Irreversibility 14 1.6 Exergy 14 1.6.1 Exergy Associated with Kinetic and Potential Energy 1.6.2 Physical Exergy 16 1.6.3 Chemical Exergy 16 2.6.3.2 Standard Chemical Exergy 16 1.6.3.2 Chemical Exergy of Gas Mixtures 17 1.6.3.3 Chemical Exergy of Humid Air 17 1.6.3.4 Chemical Exergy of Liquid Water and Ice 18 1.6.3.5 Chemical Exergy for Absorption Chillers 21 1.6.4 Exergy Balance Equation 23 1.6.5 Exergy Efficiency 24 1.6.6 Procedure for Energy and Exergy Analyses 24 1.7 Concluding Remarks 27 References 27 Study Questions/Problems 28 vi Contents 2 Modeling and Optimization 33 2.1 Introduction 33 2.2 Modeling 34 2.2.1 Air compressors 36 2.2.2 Gas Turbines 37 2.2.3 Pumps 38 2.2.4 Closed Heat Exchanger 39 2.2.5 Combustion Chamber (CC) 40 2.2.6 Ejector 41 2.2.7 Flat Plate Solar Collector 43 2.2.8 Solar Photovoltaic Thermal (PV/T) System 44 2.2.9 Solar Photovoltaic Panel 44 2.3 Optimization 47 2.3.1 System Boundaries 48 2.3.2 Objective Functions and System Criteria 48 2.3.3 Decision Variables 48 2.3.4 Constraints 48 2.3.5 Optimization Methods 49 2.3.5.1 Classical Optimization 49 2.3.5.2 Numerical Optimization Methods 49 2.3.5.3 Evolutionary Algorithms 50 2.4 Multi-objective Optimization 51 2.4.1 Sample Applications of Multi-objective Optimization 52 2.4.1.1 Economics 52 2.4.1.2 Finance 53 2.4.1.3 Engineering 53 2.4.2 Illustrative Example: Air Compressor Optimization 53 2.4.2.1 Thermodynamic and Economic Modeling and Analysis 53 2.4.2.2 Decision Variables 55 2.4.2.3 Constraints 56 2.4.2.4 Multi-objective Optimization 56 2.4.3 Ilustrative Example: Steam Turbine 58 2.4.3.1 Decision Variables 59 2.4.3.2 Constraints 59 2.4.3.3 Multi-objective Optimization 60 2.5 Concluding Remarks 61 References 63 Study Questions/Problems 63 3 Modeling and Optimization of Thermal Components 65 3.1 Introduction 65 3.2 Air Compressor 66 3.3 Steam Turbine 67 3.4 Pump 68 3.4.1 Modeling and Simulation of a Pump 69 3.4.2 Decision variables 69 3.4.3 Constraints 69 3.4.4 Multi-objective Optimization of a Pump 70 3.5 Combustion Chamber 73 3.5.1 Modeling and Analysis of a Combustion Chamber 73 3.5.1.1 Total Cost Rate 75 3.5.2 Decision Variables 75 3.5.3 Constraints 75 3.5.4 Multi-objective Optimization 76 3.6 Flat Plate Solar Collector 78 3.6.1 Modeling and Analysis of Collector 78 3.6.2 Decision Variables and Input Data 79 3.6.3 Constraints 79 3.6.4 Multi-objective Optimization 81 3.7 Ejector 81 3.7.1 Modeling and Analysis of an Ejector 83 3.7.2 Decision Variables and Constraints 85 3.7.3 Objective Functions and Optimization 85 3.8 Concluding Remarks 89 References 89 Study Questions/Problems 90 4 Modeling and Optimization of Heat Exchangers 92 4.1 Introduction 92 4.2 Types of Heat Exchangers 93 4.3 Modeling and Optimization of Shell and Tube Heat Exchangers 96 4.3*1 Modeling and Simulation 96 4.3.2 Optimization 99 4.3.2.1 Definition of Objective Functions 99 4.3.2.2 Decision Variables 99 4.3.3 Case Study 100 4.3.4 Model Verification 100 4.3.5 Optimization Results 101 4.3.6 Sensitivity Analysis Results 103 4.4 Modeling and Optimization of Cross Flow Plate Fin Heat Exchangers 103 4.4.1 Modeling and Simulation 105 4.4.2 Optimization 107 4.4.2.1 Decision Variables 108 4.4.3 Case Study 108 4.4.4 Model Verification 108 4.4.5 Optimization Results 109 4.4.6 Sensitivity Analysis Results 112 4.5 Modeling and Optimization of Heat Recovery Steam Generators 118 4.5.1 Modeling and Simulation 118 4.5.2 Optimization 121 4.5.2.1 Decision Variables 121 4.5.3 Case Study 121 4.5.4 Modeling Verification 122 4.5.5 Optimization Results 122 4.5.6 Sensitivity Analysis Results 128 01 01 viii I Contents Concluding Remarks 129 References 130 Study Questions/Problems 131 4.6 5 Modeling and Optimization of Refrigeration Systems 133 5.1 Introduction 133 5.2 Vapor Compression Refrigeration Cycle 134 5.2.1 Thermodynamic Analysis 135 5.2.2 Exergy Analysis 138 5.2.3 Optimization 144 5.2.3.1 Decision Variables 145 5.2.3.2 Optimization Results 146 5.3 Cascade Refrigeration Systems 150 5.4 Absorption Chiller 159 5.4.1 Thermodynamic Analysis 161 5.4.2 Exergy Analysis 162 .4.3 Exergoeconomic Analysis 166 .4.4 Results and Discussion 166 5.4.4.1 Optimization 174 5.4.4.2 Optimization Results 175 5.5 Concluding Remarks 178 References 178 Study Questions/Problems 179 6 Modeling and Optimization of Heat Pump Systems 183 6.1 Introduction 183 6.2 Air/Water Heat Pump System 184 6.3 System Exergy Analysis 186 6.4 Energy and Exergy Results 188 6.5 Optimization 193 6.6 Concluding Remarks 196 Reference 198 Study Questions/Problems 198 7 Modeling and Optimization of Fuel Cell Systems 199 7.1 Introduction 199 7.2 Thermodynamics of Fuel Cells 200 7.2.1 Gibbs Function 200 7.2.2 Reversible Cell Potential 201 7.3 PEM Fuel Cell Modeling 203 7.3.1 Exergy and Exergoeconomic Analyses 204 7.3.2 Multi-objective Optimization of a PEM Fuel Cell System 205 7.4 SOFC Modeling 212 7.4.1 Mathematical Model 212 7.4.2 Cost Analysis 215 7.4.3 Optimization 216 7.5 Concluding Remarks 219 References 219 Study Questions/Problems 219 8 Modeling and Optimization of Renewable Energy Based Systems 221 8.1 Introduction 221 8.2 Ocean Thermal Energy Conversion (OTEC) 222 8.2.1 Thermodynamic Modeling of OTEC 222 8.2.1.1 Flat Plate Solar Collector 223 8.2.1.2 Organic Rankine Cycle (ORC) 224 8.2.1.3 PEM Electrolyzer 225 8.2.2 Thermochemical Modeling of a PEM Electrolyzer 226 8.2.3 Exergy Analysis 227 8.2.4 Efficiencies 228 8.2.4.1 Exergy Efficiency 228 8.2.5 Exergoeconomic Analysis 228 8.2.5.1 Flat Plate Solar Collector in OTEC Cycle 228 8.2.5.2 OTEC Cycle 229 8.2.6 Results and Discussion 229 8.2.6.1 Modeling Validation and Simulation Code Results 229 8.2.6.2 Exergy Analysis Results 232 8.2.7 Multi-objective Optimization 237 8.2.7.1 Objectives 238 8.2.7.2 Decision Variables 238 8.2.8 Optimization Results 238 8.3 Solar Based Energy System 241 8.3.1 Thermodynamic Analysis 244 8.3.2 Exergoeconomic Analysis 246 8.3.3 Results and Discussion 246 8.3.3.1 Exergoeconomic Results 248 8.3.4 Sensitivity Analysis 250 8.3.5 Optimization 253 8.3.6 Optimization Results 254 8.4 Hybrid Wind-Photovoltaic-Battery System 256 8.4.1 Modeling 256 8.4.1.1 Photovoltaic (PV) Panel 256 8.4.1.2 Wind Turbine (WT) 262 8.4.1.3 Battery 262 8.4.2 Objective Function, Design Parameters, and Constraints 262 8.4.3 Real Parameter Genetic Algorithm 263 8.4.4 Case Study 264 8.4.5 Results and Discussion 265 8.5 Concluding Remarks 268 References 270 Study Questions/Problems 273 9 Modeling and Optimization of Power Plants 275 9.1 Introduction 275 9.2 Steam Power Plants 276 9.2.1 Modeling and Analysis 278 9.2.2 Objective Functions, Design Parameters, and Constraints 281 Contents 9.3 Gas Turbine Power Plants 283 9.3.1 Thermodynamic Modeling 284 9.3.1.1 Air Compressor 285 9.3.1.2 Air Preheater (AP) 286 9.3.1.3 Combustion Chamber (CC) 286 9.3.1.4 Gas Turbine 286 9.3.2 Exergy and Exergoeconomic Analyses 287 9.3.3 Environmental Impact Assessment 289 9.3.4 Optimization 290 9.3.4.1 Definition of Objective Functions 290 9.3.4.2 Decision Variables 291 9.3.4.3 Model Validation 291 9.3.5 Results and Discussion 292 9.3.6 Sensitivity Analysis 294 9.3.7 Summary 296 9.4 Combined Cycle Power Plants 297 9.4.1 Thermodynamic Modeling 298 9.4.1.1 Duct Burner 298 9.4.1.2 Heat Recovery Steam Generator (HRSG) 298 9.4.1.3 Steam Turbine (ST) 300 9.4.1.4 Condenser 300 9.4.1.5 Pump 300 9.4.2 Exergy Analysis 300 9.4.3 Optimization 301 9.4.3.1 Definition of Objectives 301 9.4.3.2 Decision Variables 302 9.4.3.3 Constraints 302 9.4.4 Results and Discussion 303 9.5 Concluding Remarks 312 References 313 Study Questions/Problems 314 10 Modeling and Optimization of Cogeneration and Trigeneration Systems 317 10.1 Introduction 317 10.2 Gas Turbine Based CHP System 321 10.2.1 Thermodynamic Modeling and Analyses 322 10.2.1.1 Air Preheater 322 10.2.1.2 Heat Recovery Steam Generator (HRSG) 323 10.2.2 Optimization 325 10.2.2.1 Single Objective Optimization 325 10.2.2.2 Multi-objective Optimization 331 10.2.2.3 Optimization Results 333 10.3 Internal Combustion Engine (ICE) Cogeneration Systems 342 10.3.1 Selection of Working Fluids 343 10.3.2 Thermodynamic Modeling and Analysis 344 10.3.2.1 Internal Combustion Engine 345 10.3.2.2 Organic Rankine Cycle 346 10.3.2.3 Ejector Refrigeration Cycle (ERC) 346 10.3.3 Exergy Analysis 348 10.3.4 Optimization 348 10.3.4.1 Decision Variables 350 10.3.4.2 Multi-objective optimization 350 10.4 Micro Gas Turbine Trigeneration System 362 10.4.1 Thermodynamic Modeling 362 10.4.1.1 Topping Cycle (Brayton Cycle) 362 10.4.1.2 Bottoming Cycle 362 10.4.1.3 Absorption Chiller 365 10.4.1.4 Domestic Water Heater 365 10.4.2 Exergy Analysis 365 10.4.3 Optimization 366 10.4.3.1 Definition of Objectives 366 10.4.3.2 Decision Variables 367 10.4.3.3 Evolutionary Algorithm: Genetic Algorithm 368 10.4.4 Optimization Results 368 10.4.5 Sensitivity Analysis 372 10.5 Biomass Based Trigeneration System 381 10.5.1 Thermodynamic Modeling 382 10.5.1.1 Gasifier 382 10.5.1.2 Multi-effect Desalination Unit 383 10.5.2 Exergy Analysis 386 10.5.3 Optimization 387 10.5.3.1 Decision Variables 390 10.5.4 Optimization Results 390 10.6 Concluding Remarks 392 References 393 Study Questions/Problems 396 11 Modeling and Optimization of Multigeneration Energy Systems 398 11.1 Introduction 398 11.2 Multigeneration System Based On Gas Turbine Prime Mover 401 11.2.1 Thermodynamic Modeling 403 11.2.1.1 Brayton Cycle 403 11.2.1.2 Bottoming Cycle 404 11.2.1.3 Absorption Chiller 406 11.2.1.4 Domestic Hot Water Heater 406 11.2.1.5 Organic Rankine Cycle 406 11.2.1.6 Heat Recovery Vapor Generator (HRVG) 408 11.2.2 Exergy Analysis 412 11.2.2.1 Exergy Efficiency 413 11.2.3 Economic Analysis 413 11.2.3.1 Brayton Cycle 413 11.2.3.2 Steam Cycle 414 11.2.3.3 ORC Cycle 415 11.2.3.4 Absorption Chiller 416 11.2.3.5 PEM Electrolyzer 417 xii l Contents 11.2.3.6 Domestic Hot Water (DHW) Heater 417 11.23.7 Capital recovery factor (CRF) 417 11.2.4 Multi-objective Optimization 417 11.2.4.1 Definition of Objectives 417 11.2.4.2 Decision Variables 418 11.2.5 Optimization Results 418 11.3 Biomass Based Multigeneration Energy System 422 11.3.1 Thermodynamic Analysis 424 11.3.1.1 Biomass Combustion 424 11.3.1.2 ORC Cycle 425 11.3.1.3 Domestic Water Heater 426 11.3.1.4 Double-effect Absorption Chiller 426 11.3.1.5 Reverse Osmosis (RO) Desalination Unit 428 11.3.2 Exergy Analysis of the System 430 11.3.3 Economic Analysis of the System 431 11.3.3.1 Biomass Combustor and Evaporator 431 11.3.3.2 Heating Process Unit 432 11.3.3.3 Reverse Osmosis (RO) Desalination Unit 432 11.3.4 Multi-objective Optimization 432 11.3.4.1 Definition of Objectives 432 11.3.4.2 Decision Variables 433 11.3.5 Optimization Results 433 11.4 Concluding Remarks 443 References 443 Study Questions/Problems 444 Index 447
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author	Dincer, Ibrahim 1964- Rosen, Marc 1958- Ahmadi, Pouria
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spelling	Dincer, Ibrahim 1964- Verfasser (DE-588)1042589615 aut Optimization of energy systems Ibrahim Dincer and Marc A. Rosen (University of Ontario Institute of Technology, Canada), Pouria Ahmadi (Simon Fraser University, Canada) Chichester, West Sussex, UK Wiley 2017 xvi, 453 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Power (Mechanics) Power resources Energy conservation Sustainable engineering Kraftwerkstechnik (DE-588)4165467-5 gnd rswk-swf Energiemanagement (DE-588)4124833-8 gnd rswk-swf Energietechnik (DE-588)4014725-3 gnd rswk-swf Optimierung (DE-588)4043664-0 gnd rswk-swf Kraftwerk (DE-588)4032728-0 gnd rswk-swf Energietechnik (DE-588)4014725-3 s Kraftwerk (DE-588)4032728-0 s Optimierung (DE-588)4043664-0 s DE-604 Kraftwerkstechnik (DE-588)4165467-5 s Energiemanagement (DE-588)4124833-8 s Rosen, Marc 1958- Verfasser (DE-588)1056139412 aut Ahmadi, Pouria Verfasser aut Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029916340&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Dincer, Ibrahim 1964- Rosen, Marc 1958- Ahmadi, Pouria Optimization of energy systems Power (Mechanics) Power resources Energy conservation Sustainable engineering Kraftwerkstechnik (DE-588)4165467-5 gnd Energiemanagement (DE-588)4124833-8 gnd Energietechnik (DE-588)4014725-3 gnd Optimierung (DE-588)4043664-0 gnd Kraftwerk (DE-588)4032728-0 gnd
subject_GND	(DE-588)4165467-5 (DE-588)4124833-8 (DE-588)4014725-3 (DE-588)4043664-0 (DE-588)4032728-0
title	Optimization of energy systems
title_auth	Optimization of energy systems
title_exact_search	Optimization of energy systems
title_full	Optimization of energy systems Ibrahim Dincer and Marc A. Rosen (University of Ontario Institute of Technology, Canada), Pouria Ahmadi (Simon Fraser University, Canada)
title_fullStr	Optimization of energy systems Ibrahim Dincer and Marc A. Rosen (University of Ontario Institute of Technology, Canada), Pouria Ahmadi (Simon Fraser University, Canada)
title_full_unstemmed	Optimization of energy systems Ibrahim Dincer and Marc A. Rosen (University of Ontario Institute of Technology, Canada), Pouria Ahmadi (Simon Fraser University, Canada)
title_short	Optimization of energy systems
title_sort	optimization of energy systems
topic	Power (Mechanics) Power resources Energy conservation Sustainable engineering Kraftwerkstechnik (DE-588)4165467-5 gnd Energiemanagement (DE-588)4124833-8 gnd Energietechnik (DE-588)4014725-3 gnd Optimierung (DE-588)4043664-0 gnd Kraftwerk (DE-588)4032728-0 gnd
topic_facet	Power (Mechanics) Power resources Energy conservation Sustainable engineering Kraftwerkstechnik Energiemanagement Energietechnik Optimierung Kraftwerk
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029916340&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT dinceribrahim optimizationofenergysystems AT rosenmarc optimizationofenergysystems AT ahmadipouria optimizationofenergysystems

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