Verfügbarkeit: Waste heat recovery in process industries

Waste heat recovery in process industries:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Jouhara, Hussam (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2022
Schlagworte:	Energieumwandlung Prozesswärme Kreisprozess Abhitzekessel Wärmeaustauscher Wärmerückgewinnung Wärmepumpe Abwärme CG12: Prozessintensivierung u. -integration CH30: Technische u. Industrielle Chemie Chemical Engineering Chemie Chemische Verfahrenstechnik Chemistry EG03: Energieeffizienz Energie Energieeffizienz Energy Energy Efficiency Industrial Chemistry Process Intensification & Integration Prozessintensivierung u. -integration Technische u. Industrielle Chemie Wärmeenergie
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34856-5/ Inhaltsverzeichnis
Beschreibung:	xiii, 274 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
ISBN:	9783527348565

Internformat

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Datensatz im Suchindex

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adam_text	VII CONTENTS PREFACE XIII 1 1.1 1.2 1.2.1 1.2.2 1.2.3 1.2.4 1.2.4.1 1.2.4.2 1.2.4.3 1.2.4.4 1.2.4.5 1.2.4.6 1.2.5 1.2.5.1 1.2.5.2 1.2.6 1.2.6.1 1.2.6.2 1.2.6.3 1.2.6.4 1.3 1.3.1 1.3.1.1 1.3.1.2 1.3.1.3 1.3.1.4 1.3.2 1.3.3 1.3.4 1.3.4.1 THERMODYNAMIC CYCLES 1 INTRODUCTION TO THERMODYNAMIC CYCLES 1 RANKINE CYCLE 1 INTRODUCTION 1 THERMODYNAMIC DIAGRAMS 2 THE CARNOT CYCLE 10 IDEAL AND ACTUAL RANKINE CYCLES 12 IDEAL CYCLE 13 SUPERHEATED RANKINE CYCLE 15 ACTUAL RANKINE CYCLE 17 IMPROVEMENTS TO THE RANKINE CYCLE 19 REGENERATIVE RANKINE CYCLES 22 COGENERATION 26 OTHER CONFIGURATIONS OF THE RANKINE CYCLE 29 SUPERCRITICAL RANKINE CYCLES 29 REVERSE RANKINE CYCLES 30 RANKINE CYCLES IN POWER PLANTS 31 FOSSIL FUEL POWER PLANTS 31 NUCLEAR POWER PLANTS 32 OVERALL EFFICIENCY OF A POWER PLANT 32 CASE STUDIES 33 ORGANIC RANKINE CYCLE 34 CONFIGURATIONS OF ORC 35 BASIC ORC CONFIGURATION 35 ORC WITH PREHEATING 36 RECUPERATIVE ORC 38 RECUPERATIVE ORC WITH PREHEATING 39 ORGANIC WORKING FLUIDS 40 ORGANIC WORKING FLUID SELECTION 42 APPLICATIONS OF THE ORC 45 WASTE HEAT RECOVERY 45 VIII CONTENTS 1.4 1.4.1 1.4.1.1 1.4.2 1.4.2.1 1.4.2.2 1.4.3 1.4.3.1 1.4.4 1.5 1.5.1 1.5.1.1 1.5.1.2 1.5.1.3 1.5.2 1.5.2.1 1.5.2.2 1.6 KALINA CYCLE 46 CYCLE FUNDAMENTALS 46 WHY USE AMMONIA-WATER SOLUTION IN KALINA CYCLE? 48 ADVANTAGES AND DRAWBACKS 49 ADVANTAGES 49 DRAWBACKS 50 APPLICATIONS OF THE KALINA CYCLE 50 THE DIFFERENT CONFIGURATIONS OF THE CYCLE 51 CASE STUDIES 53 BRAYTON CYCLE 53 REGENERATIVE BRAYTON CYCLE (REGENERATOR) 57 COMPRESSOR ANALYSIS 58 TURBINE ANALYSIS 58 HEAT SUPPLIED TO THE CYCLE 59 REGENERATIVE BRAYTON CYCLE (REHEATER AND INTERCOOLER) 59 INTERCOOLING 60 REHEATING 60 CHAPTER SUMMARY 61 REFERENCES 62 2 2.1 2.1.1 2.1.1.1 2.1.1.2 2.1.1.3 2.1.2 2.1.2.1 2.1.2.2 2.1.2.3 2.1.3 2.1.4 2.1.5 2.2 2.2.1 2.2.1.1 2.2.1.2 2.2.2 2.2.2.1 2.2.3 2.2.4 2.3 2.3.1 2.3.2 2.3.2.1 WASTE HEAT RECOVERY 67 BURNER AND AIR PREHEATERS 67 RECUPERATORS 67 RECUPERATIVE BURNERS 68 CLASSIFYING RECUPERATIVE BURNERS 71 EFFICIENCY IMPROVEMENT AND FUEL SAVINGS 72 REGENERATORS 74 ROTARY REGENERATORS 74 STATIC REGENERATORS 75 REGENERATIVE BURNERS 75 BURNER TECHNOLOGY COMPARISON 76 NO X FORMATION 77 RUN-AROUND COIL 78 HEAT EXCHANGERS 79 SHELL AND TUBE HEXS 79 CONSTRUCTION 80 APPLICATIONS AND LIMITATIONS 82 PLATE HEAT EXCHANGER 82 SPIRAL PLATE HEAT EXCHANGER 83 HEAT PIPE HEAT EXCHANGER 83 COMPACT HEX 85 WASTE HEAT BOILERS 86 DIFFERENT WHB DESIGNS 87 WHB METHODOLOGIES 88 FEED WATER PREHEATING EFFECT 88 CONTENTS IX 23.2.2 OPTIMISING THERMODYNAMIC CYCLES 89 23.23 HEAT RECOVERY BOILER WITH WATER SPRAY SYSTEMS 91 233 FAILURE MODES 92 233.1 FAILURE MODES ANALYSIS 92 2.4 HEAT RECOVERY STEAM GENERATORS 93 2.4.1 CONSTRUCTION OF WASTE HRSG 94 2.4.1.1 HRSG DESIGN AND CONSTRUCTION 95 2.4.1.2 EVAPORATOR 95 2.4.13 SUPERHEATER 96 2.4.1.4 ECONOMISER 96 2.4.1.5 STEAM DRUM 96 2.4.1.6 EVAPORATOR TYPES 96 2.4.1.7 HORIZONTAL TUBE HEXS 98 2.4.1.8 NATURAL CIRCULATION HRSGS 98 2.4.1.9 ASSISTED (OR FORCED) CIRCULATION HRSGS 99 2.4.1.10 TUBE MATERIALS 99 2.4.1.11 THE PINCH POINT AND OTHER EFFECTS 100 2.5 HEAT PUMPS 100 2.5.1 FUNDAMENTAL PRINCIPLES OF HEAT PUMPS 100 2.5.1.1 COOLING MODE 101 2.5.1.2 HEATING MODE 101 2.5.2 VARIATION OF HEAT PUMP SYSTEM 102 2.5.2.1 AIR SOURCE HEAT PUMP SYSTEM 103 2.5.2.2 GROUND SOURCE HEAT PUMP SYSTEM 103 2.5.23 WATER SOURCE HEAT PUMP SYSTEM 105 2.5.2.4 WATER LOOP HEAT PUMP SYSTEM 105 2.5.23 EXHAUST AIR SYSTEM 106 23.2.6 HYBRID HEAT PUMP 106 23.2.7 SOLAR-ASSISTED HEAT PUMPS 106 2.6 DIRECT ELECTRICAL CONVERSION DEVICE 107 2.6.1 TEG - WORKING PRINCIPLE 108 2.6.2 THE SEEBECK EFFECT 109 2.63 THE PELTIER EFFECT 109 2.63.1 APPLICATIONS OF THE PELTIER EFFECT 110 2.6.4 THOMSON EFFECT 110 2.6.5 JOULE HEATING 111 2.6.6 THEORETICAL PRINCIPLE 112 2.6.7 FIGURE OF MERIT 112 2.6.8 FERMI LEVEL 113 2.6.9 NANO-SIZING 114 2.6.10 EFFICIENCY OF TEG 115 2.7 THERMAL STORAGE 116 2.7.1 SENSIBLE HEAT STORAGE 117 2.7.2 LATENT HEAT STORAGE 120 2.73 THERMOCHEMICAL STORAGE 123 X CONTENTS 2.7.4 2.7.5 2.7.6 2.7.7 2.7.8 2.7.8.1 2.7.8.2 2.7.8.3 2.7.8.4 2.7.8.5 2.8 2.8.1 2.8.2 2.8.2.1 2.8.2.2 2.8.2.3 2.8.3 2.8.3.1 2.8.3.2 2.8.4 2.8.5 2.8.6 2.8.7 2.8.8 2.8.9 PHASE CHANGE MATERIALS 123 ORGANIC MATERIAL 125 INORGANIC PCMS 128 EUTECTIC PCMS 128 PCM METHODOLOGIES 129 ENCAPSULATION OF PCMS 129 MICROENCAPSULATED PCMS 129 MACROENCAPSULATION OF THE PCMS 132 NANOMATERIAL PCMS 132 SHAPE STABILISATION 135 DESIGN DEVELOPMENT METHODS 135 INTRODUCTION 135 HEAT EXCHANGERS 140 LOCAL HEAT TRANSFER 140 LMTD METHOD 147 EFFECTIVENESS-NUMBER OF TRANSFER UNITS (E-NTU) METHOD 151 REGENERATIVE AND RECUPERATIVE BURNERS 152 REGENERATIVE BURNERS 154 RECUPERATIVE BURNERS 156 WASTE HEAT BOILERS 157 AIR PREHEATERS 160 HEAT RECOVERY STEAM GENERATOR 166 HEAT PUMPS 170 DIRECT ELECTRICAL CONVERSION DEVICE 173 THERMAL STORAGE 176 REFERENCES 178 3 3.1 3.2 3.2.1 3.3 LOW-TEMPERATURE APPLICATIONS 191 REFRIGERATION 191 CRYOGENICS 198 LOOP HEAT PIPE 199 HVAC 204 REFERENCES 209 4 4.1 4.1.1 4.1.2 MEDIUM-TEMPERATURE APPLICATIONS 213 FOOD INDUSTRY 213 ENERGY USE IN THE INDUSTRY 213 CASE STUDY 1: HEAT RECOVERY POTENTIAL OF THE CRISPS MANUFACTURING PROCESS 214 4.1.3 CASE STUDY 2: TEMPERATURE AND ENERGY PERFORMANCE OF OPEN REFRIGERATED DISPLAY CABINETS USING HEAT PIPE SHELVES 215 4.2 4.2.1 4.3 4.4 VENTILATION 221 APPLICATIONS 221 SOLAR ENERGY 223 GEOTHERMAL ENERGY 230 CONTENTS XI INDEX 269 4.5 4.5.1 4.6 AUTOMOTIVE INDUSTRY 233 INDUSTRIAL PROCESSES 235 AVIATION 237 REFERENCES 239 5 5.1 5.1.1 5.1.2 5.1.2.1 5.1.2.2 5.1.3 5.1.3.1 5.2 5.2.1 5.2.2 5.2.2.1 5.2.2.2 5.2.2.3 5.3 5.3.1 5.3.1.1 5.3.1.2 5.3.2 5.4 5.4.1 5.4.2 5.4.3 5.4.4 5.4.4.1 5.4.4.2 5.4.4.3 5.4.5 5.4.6 5.4.7 5.4.8 HIGH-TEMPERATURE APPLICATIONS 245 STEEL INDUSTRY 245 TEG MODULES 246 HEAT EXCHANGERS 246 APPLICATION 1: SLAG PARTICLES BLAST FURNACE RETROFIT 246 APPLICATION 2: FLAT HEAT PIPE HEAT EXCHANGER 247 RECUPERATORS 249 APPLICATION 1: HEAT RECUPERATOR FOR STEEL SLAG 249 CERAMIC INDUSTRY 251 INTRODUCTION 251 HEAT EXCHANGERS 251 APPLICATION 1: RADIATIVE HEAT PIPE 251 APPLICATION 2: MULTI-PASS HEAT PIPE 252 APPLICATION 3: FORCED CONVECTION HEAT PIPE 253 CEMENT INDUSTRY 254 GAS SUSPENSION PREHEATERS 255 APPLICATION 1 255 APPLICATION 2 256 HEAT PIPE THERMOELECTRIC GENERATOR 256 ALUMINIUM INDUSTRY 258 ROTARY REGENERATOR 258 HEAT EXCHANGERS 258 HEAT PUMPS 258 RECUPERATORS 260 RADIATIVE RECUPERATOR 260 CONVECTIVE RECUPERATOR 261 HYBRID RECUPERATOR 262 THERMOELECTRIC DEVICE 262 REGENERATIVE BURNER 262 PREHEATING SCRAP 264 DE-COATING 265 REFERENCES 265
adam_txt	VII CONTENTS PREFACE XIII 1 1.1 1.2 1.2.1 1.2.2 1.2.3 1.2.4 1.2.4.1 1.2.4.2 1.2.4.3 1.2.4.4 1.2.4.5 1.2.4.6 1.2.5 1.2.5.1 1.2.5.2 1.2.6 1.2.6.1 1.2.6.2 1.2.6.3 1.2.6.4 1.3 1.3.1 1.3.1.1 1.3.1.2 1.3.1.3 1.3.1.4 1.3.2 1.3.3 1.3.4 1.3.4.1 THERMODYNAMIC CYCLES 1 INTRODUCTION TO THERMODYNAMIC CYCLES 1 RANKINE CYCLE 1 INTRODUCTION 1 THERMODYNAMIC DIAGRAMS 2 THE CARNOT CYCLE 10 IDEAL AND ACTUAL RANKINE CYCLES 12 IDEAL CYCLE 13 SUPERHEATED RANKINE CYCLE 15 ACTUAL RANKINE CYCLE 17 IMPROVEMENTS TO THE RANKINE CYCLE 19 REGENERATIVE RANKINE CYCLES 22 COGENERATION 26 OTHER CONFIGURATIONS OF THE RANKINE CYCLE 29 SUPERCRITICAL RANKINE CYCLES 29 REVERSE RANKINE CYCLES 30 RANKINE CYCLES IN POWER PLANTS 31 FOSSIL FUEL POWER PLANTS 31 NUCLEAR POWER PLANTS 32 OVERALL EFFICIENCY OF A POWER PLANT 32 CASE STUDIES 33 ORGANIC RANKINE CYCLE 34 CONFIGURATIONS OF ORC 35 BASIC ORC CONFIGURATION 35 ORC WITH PREHEATING 36 RECUPERATIVE ORC 38 RECUPERATIVE ORC WITH PREHEATING 39 ORGANIC WORKING FLUIDS 40 ORGANIC WORKING FLUID SELECTION 42 APPLICATIONS OF THE ORC 45 WASTE HEAT RECOVERY 45 VIII CONTENTS 1.4 1.4.1 1.4.1.1 1.4.2 1.4.2.1 1.4.2.2 1.4.3 1.4.3.1 1.4.4 1.5 1.5.1 1.5.1.1 1.5.1.2 1.5.1.3 1.5.2 1.5.2.1 1.5.2.2 1.6 KALINA CYCLE 46 CYCLE FUNDAMENTALS 46 WHY USE AMMONIA-WATER SOLUTION IN KALINA CYCLE? 48 ADVANTAGES AND DRAWBACKS 49 ADVANTAGES 49 DRAWBACKS 50 APPLICATIONS OF THE KALINA CYCLE 50 THE DIFFERENT CONFIGURATIONS OF THE CYCLE 51 CASE STUDIES 53 BRAYTON CYCLE 53 REGENERATIVE BRAYTON CYCLE (REGENERATOR) 57 COMPRESSOR ANALYSIS 58 TURBINE ANALYSIS 58 HEAT SUPPLIED TO THE CYCLE 59 REGENERATIVE BRAYTON CYCLE (REHEATER AND INTERCOOLER) 59 INTERCOOLING 60 REHEATING 60 CHAPTER SUMMARY 61 REFERENCES 62 2 2.1 2.1.1 2.1.1.1 2.1.1.2 2.1.1.3 2.1.2 2.1.2.1 2.1.2.2 2.1.2.3 2.1.3 2.1.4 2.1.5 2.2 2.2.1 2.2.1.1 2.2.1.2 2.2.2 2.2.2.1 2.2.3 2.2.4 2.3 2.3.1 2.3.2 2.3.2.1 WASTE HEAT RECOVERY 67 BURNER AND AIR PREHEATERS 67 RECUPERATORS 67 RECUPERATIVE BURNERS 68 CLASSIFYING RECUPERATIVE BURNERS 71 EFFICIENCY IMPROVEMENT AND FUEL SAVINGS 72 REGENERATORS 74 ROTARY REGENERATORS 74 STATIC REGENERATORS 75 REGENERATIVE BURNERS 75 BURNER TECHNOLOGY COMPARISON 76 NO X FORMATION 77 RUN-AROUND COIL 78 HEAT EXCHANGERS 79 SHELL AND TUBE HEXS 79 CONSTRUCTION 80 APPLICATIONS AND LIMITATIONS 82 PLATE HEAT EXCHANGER 82 SPIRAL PLATE HEAT EXCHANGER 83 HEAT PIPE HEAT EXCHANGER 83 COMPACT HEX 85 WASTE HEAT BOILERS 86 DIFFERENT WHB DESIGNS 87 WHB METHODOLOGIES 88 FEED WATER PREHEATING EFFECT 88 CONTENTS IX 23.2.2 OPTIMISING THERMODYNAMIC CYCLES 89 23.23 HEAT RECOVERY BOILER WITH WATER SPRAY SYSTEMS 91 233 FAILURE MODES 92 233.1 FAILURE MODES ANALYSIS 92 2.4 HEAT RECOVERY STEAM GENERATORS 93 2.4.1 CONSTRUCTION OF WASTE HRSG 94 2.4.1.1 HRSG DESIGN AND CONSTRUCTION 95 2.4.1.2 EVAPORATOR 95 2.4.13 SUPERHEATER 96 2.4.1.4 ECONOMISER 96 2.4.1.5 STEAM DRUM 96 2.4.1.6 EVAPORATOR TYPES 96 2.4.1.7 HORIZONTAL TUBE HEXS 98 2.4.1.8 NATURAL CIRCULATION HRSGS 98 2.4.1.9 ASSISTED (OR FORCED) CIRCULATION HRSGS 99 2.4.1.10 TUBE MATERIALS 99 2.4.1.11 THE ' PINCH POINT ' AND OTHER EFFECTS 100 2.5 HEAT PUMPS 100 2.5.1 FUNDAMENTAL PRINCIPLES OF HEAT PUMPS 100 2.5.1.1 COOLING MODE 101 2.5.1.2 HEATING MODE 101 2.5.2 VARIATION OF HEAT PUMP SYSTEM 102 2.5.2.1 AIR SOURCE HEAT PUMP SYSTEM 103 2.5.2.2 GROUND SOURCE HEAT PUMP SYSTEM 103 2.5.23 WATER SOURCE HEAT PUMP SYSTEM 105 2.5.2.4 WATER LOOP HEAT PUMP SYSTEM 105 2.5.23 EXHAUST AIR SYSTEM 106 23.2.6 HYBRID HEAT PUMP 106 23.2.7 SOLAR-ASSISTED HEAT PUMPS 106 2.6 DIRECT ELECTRICAL CONVERSION DEVICE 107 2.6.1 TEG - WORKING PRINCIPLE 108 2.6.2 THE SEEBECK EFFECT 109 2.63 THE PELTIER EFFECT 109 2.63.1 APPLICATIONS OF THE PELTIER EFFECT 110 2.6.4 THOMSON EFFECT 110 2.6.5 JOULE HEATING 111 2.6.6 THEORETICAL PRINCIPLE 112 2.6.7 FIGURE OF MERIT 112 2.6.8 FERMI LEVEL 113 2.6.9 NANO-SIZING 114 2.6.10 EFFICIENCY OF TEG 115 2.7 THERMAL STORAGE 116 2.7.1 SENSIBLE HEAT STORAGE 117 2.7.2 LATENT HEAT STORAGE 120 2.73 THERMOCHEMICAL STORAGE 123 X CONTENTS 2.7.4 2.7.5 2.7.6 2.7.7 2.7.8 2.7.8.1 2.7.8.2 2.7.8.3 2.7.8.4 2.7.8.5 2.8 2.8.1 2.8.2 2.8.2.1 2.8.2.2 2.8.2.3 2.8.3 2.8.3.1 2.8.3.2 2.8.4 2.8.5 2.8.6 2.8.7 2.8.8 2.8.9 PHASE CHANGE MATERIALS 123 ORGANIC MATERIAL 125 INORGANIC PCMS 128 EUTECTIC PCMS 128 PCM METHODOLOGIES 129 ENCAPSULATION OF PCMS 129 MICROENCAPSULATED PCMS 129 MACROENCAPSULATION OF THE PCMS 132 NANOMATERIAL PCMS 132 SHAPE STABILISATION 135 DESIGN DEVELOPMENT METHODS 135 INTRODUCTION 135 HEAT EXCHANGERS 140 LOCAL HEAT TRANSFER 140 LMTD METHOD 147 EFFECTIVENESS-NUMBER OF TRANSFER UNITS (E-NTU) METHOD 151 REGENERATIVE AND RECUPERATIVE BURNERS 152 REGENERATIVE BURNERS 154 RECUPERATIVE BURNERS 156 WASTE HEAT BOILERS 157 AIR PREHEATERS 160 HEAT RECOVERY STEAM GENERATOR 166 HEAT PUMPS 170 DIRECT ELECTRICAL CONVERSION DEVICE 173 THERMAL STORAGE 176 REFERENCES 178 3 3.1 3.2 3.2.1 3.3 LOW-TEMPERATURE APPLICATIONS 191 REFRIGERATION 191 CRYOGENICS 198 LOOP HEAT PIPE 199 HVAC 204 REFERENCES 209 4 4.1 4.1.1 4.1.2 MEDIUM-TEMPERATURE APPLICATIONS 213 FOOD INDUSTRY 213 ENERGY USE IN THE INDUSTRY 213 CASE STUDY 1: HEAT RECOVERY POTENTIAL OF THE CRISPS MANUFACTURING PROCESS 214 4.1.3 CASE STUDY 2: TEMPERATURE AND ENERGY PERFORMANCE OF OPEN REFRIGERATED DISPLAY CABINETS USING HEAT PIPE SHELVES 215 4.2 4.2.1 4.3 4.4 VENTILATION 221 APPLICATIONS 221 SOLAR ENERGY 223 GEOTHERMAL ENERGY 230 CONTENTS XI INDEX 269 4.5 4.5.1 4.6 AUTOMOTIVE INDUSTRY 233 INDUSTRIAL PROCESSES 235 AVIATION 237 REFERENCES 239 5 5.1 5.1.1 5.1.2 5.1.2.1 5.1.2.2 5.1.3 5.1.3.1 5.2 5.2.1 5.2.2 5.2.2.1 5.2.2.2 5.2.2.3 5.3 5.3.1 5.3.1.1 5.3.1.2 5.3.2 5.4 5.4.1 5.4.2 5.4.3 5.4.4 5.4.4.1 5.4.4.2 5.4.4.3 5.4.5 5.4.6 5.4.7 5.4.8 HIGH-TEMPERATURE APPLICATIONS 245 STEEL INDUSTRY 245 TEG MODULES 246 HEAT EXCHANGERS 246 APPLICATION 1: SLAG PARTICLES BLAST FURNACE RETROFIT 246 APPLICATION 2: FLAT HEAT PIPE HEAT EXCHANGER 247 RECUPERATORS 249 APPLICATION 1: HEAT RECUPERATOR FOR STEEL SLAG 249 CERAMIC INDUSTRY 251 INTRODUCTION 251 HEAT EXCHANGERS 251 APPLICATION 1: RADIATIVE HEAT PIPE 251 APPLICATION 2: MULTI-PASS HEAT PIPE 252 APPLICATION 3: FORCED CONVECTION HEAT PIPE 253 CEMENT INDUSTRY 254 GAS SUSPENSION PREHEATERS 255 APPLICATION 1 255 APPLICATION 2 256 HEAT PIPE THERMOELECTRIC GENERATOR 256 ALUMINIUM INDUSTRY 258 ROTARY REGENERATOR 258 HEAT EXCHANGERS 258 HEAT PUMPS 258 RECUPERATORS 260 RADIATIVE RECUPERATOR 260 CONVECTIVE RECUPERATOR 261 HYBRID RECUPERATOR 262 THERMOELECTRIC DEVICE 262 REGENERATIVE BURNER 262 PREHEATING SCRAP 264 DE-COATING 265 REFERENCES 265
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id	DE-604.BV047710808
illustrated	Illustrated
index_date	2024-07-03T19:00:36Z
indexdate	2024-07-10T09:19:49Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527348565
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033094577
oclc_num	1302324666
open_access_boolean
owner	DE-29T DE-83
owner_facet	DE-29T DE-83
physical	xiii, 274 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	Wiley-VCH
record_format	marc
spelling	Jouhara, Hussam Verfasser (DE-588)1255059761 aut Waste heat recovery in process industries Hussam Jouhara Weinheim Wiley-VCH 2022 xiii, 274 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Energieumwandlung (DE-588)4014730-7 gnd rswk-swf Prozesswärme (DE-588)4047599-2 gnd rswk-swf Kreisprozess (DE-588)4033003-5 gnd rswk-swf Abhitzekessel (DE-588)4365019-3 gnd rswk-swf Wärmeaustauscher (DE-588)4064176-4 gnd rswk-swf Wärmerückgewinnung (DE-588)4064199-5 gnd rswk-swf Wärmepumpe (DE-588)4064195-8 gnd rswk-swf Abwärme (DE-588)4000301-2 gnd rswk-swf CG12: Prozessintensivierung u. -integration CH30: Technische u. Industrielle Chemie Chemical Engineering Chemie Chemische Verfahrenstechnik Chemistry EG03: Energieeffizienz Energie Energieeffizienz Energy Energy Efficiency Industrial Chemistry Process Intensification & Integration Prozessintensivierung u. -integration Technische u. Industrielle Chemie Wärmeenergie Wärmerückgewinnung Prozesswärme (DE-588)4047599-2 s Abwärme (DE-588)4000301-2 s Wärmerückgewinnung (DE-588)4064199-5 s Kreisprozess (DE-588)4033003-5 s Energieumwandlung (DE-588)4014730-7 s Wärmeaustauscher (DE-588)4064176-4 s Wärmepumpe (DE-588)4064195-8 s Abhitzekessel (DE-588)4365019-3 s DE-604 Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-83002-2 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-83001-5 Erscheint auch als Online-Ausgabe, oBook 978-3-527-83000-8 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34856-5/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033094577&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20210716 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Jouhara, Hussam Waste heat recovery in process industries Energieumwandlung (DE-588)4014730-7 gnd Prozesswärme (DE-588)4047599-2 gnd Kreisprozess (DE-588)4033003-5 gnd Abhitzekessel (DE-588)4365019-3 gnd Wärmeaustauscher (DE-588)4064176-4 gnd Wärmerückgewinnung (DE-588)4064199-5 gnd Wärmepumpe (DE-588)4064195-8 gnd Abwärme (DE-588)4000301-2 gnd
subject_GND	(DE-588)4014730-7 (DE-588)4047599-2 (DE-588)4033003-5 (DE-588)4365019-3 (DE-588)4064176-4 (DE-588)4064199-5 (DE-588)4064195-8 (DE-588)4000301-2
title	Waste heat recovery in process industries
title_auth	Waste heat recovery in process industries
title_exact_search	Waste heat recovery in process industries
title_exact_search_txtP	Waste heat recovery in process industries
title_full	Waste heat recovery in process industries Hussam Jouhara
title_fullStr	Waste heat recovery in process industries Hussam Jouhara
title_full_unstemmed	Waste heat recovery in process industries Hussam Jouhara
title_short	Waste heat recovery in process industries
title_sort	waste heat recovery in process industries
topic	Energieumwandlung (DE-588)4014730-7 gnd Prozesswärme (DE-588)4047599-2 gnd Kreisprozess (DE-588)4033003-5 gnd Abhitzekessel (DE-588)4365019-3 gnd Wärmeaustauscher (DE-588)4064176-4 gnd Wärmerückgewinnung (DE-588)4064199-5 gnd Wärmepumpe (DE-588)4064195-8 gnd Abwärme (DE-588)4000301-2 gnd
topic_facet	Energieumwandlung Prozesswärme Kreisprozess Abhitzekessel Wärmeaustauscher Wärmerückgewinnung Wärmepumpe Abwärme
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34856-5/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033094577&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT jouharahussam wasteheatrecoveryinprocessindustries AT wileyvch wasteheatrecoveryinprocessindustries

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