Verfügbarkeit: The solar cooling design guide

The solar cooling design guide: case studies of successful solar air conditioning design

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Bibliographische Detailangaben
Weitere Verfasser:	Mugnier, Daniel (HerausgeberIn), Neyer, Daniel (HerausgeberIn), White, Stephen D. (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin Ernst & Sohn [2017]
Schriftenreihe:	Solar heating and cooling
Schlagworte:	Solartechnik Klimaanlage Energie Energieeffizienz Energy Energy Efficiency Erneuerbare Energien Renewable Energy Solar Energy & Photovoltaics Solarenergie u. Photovoltaik
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-433-03125-4/ Inhaltsverzeichnis
Beschreibung:	XIX, 139 Seiten Illustrationen, Diagramme (teilweise farbig)
ISBN:	9783433031254

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS ABOUT THE EDITORS XI LIST OF CONTRIBUTORS XIII THE IEA SOLAR HEATING AND COOLING PROGRAMME XV NOTES FROM THE EDITORS XVII FOREWORD ............................................................................................. XIX 1 INTRODUCTION......................................................................................... 1 1.1 ABOUT THE IEA SHC TASK 48.............................................................. 2 1.2 AMBITION AND PHILOSOPHY OF THE BOOK................................................ 3 REFERENCES............................................................................................ 4 2 GENERAL CONSIDERATIONS......................................................................... 5 2.1 SOLAR THERMAL AIR-CONDITIONING GENERAL FLOWSHEET ............................. 5 2.2 KEY DESIGN PRINCIPLES.......................................................................... 7 2.3 GENERAL ECONOMIC CONSIDERATIONS ...................................................... 13 2.4 PERFORMANCE ASSESSMENT OF SHC SYSTEMS.......................................... 16 REFERENCES............................................................................................ 18 3 CASE STUDY OF A SOLAR COOLING SYSTEM WITH A SMALL NH3/H20 ABSORPTION CHILLER.................................................................................. 19 3.1 APPLICATION DESCRIPTION AND DESIGN PHILOSOPHY ................................ 19 3.1.1 BACKGROUND......................................................................................... 19 3.1.2 RATIONALE FOR THE SELECTED CONFIGURATION ............................................ 19 3.2 SOLAR HEATING AND COOLING PROCESS DESCRIPTION .................................. 21 3.2.1 FLOWSHEET DESCRIPTION ......................................................................... 21 3.2.2 CONTROL PHILOSOPHY ............................................................................. 22 3.2.2.1 HEATING AND COOLING MODE SELECTION.................................................. 23 3.2.2.2 SOLAR AND WATER-HEATING FLOW LOOPS.................................................... 24 3.2.2.3 BACKUP HEATING FLOW LOOP ................................................................... 26 3.2.2.4 CHILLER PROCESS FLOW LOOP .................................................................... 28 3.3 EQUIPMENT SPECIFICATION ...................................................................... 29 3.3.1 ABSORPTION CHILLER............................................................................... 30 3.3.2 SOLAR COLLECTOR FIELD ............................................................................. 31 3.3.3 SOLAR HEAT EXCHANGER........................................................................... 34 3.3.4 THERMAL STORAGE TANK ......................................................................... 34 3.3.5 COOLING TOWER...................................................................................... 36 3.3.6 PUMPS AND HYDRAULICS ........................................................................ 36 3.4 HAZARD AND OPERABILITY........................................................................ 37 3.4.1 HAZARD MANAGEMENT........................................................................... 37 3.4.2 COMMISSIONING/INITIAL STARTUP............................................................ 38 3.4.3 OVERALL PERFORMANCE MONITORING........................................................ 40 3.5 CASE STUDY SYSTEM PERFORMANCE......................................................... 41 3.5.1 MONTHLY ENERGY FLOWS ......................................................................... 41 3.5.1.1 SOURCE OF HEAT...................................................................................... 41 3.5.1.2 COOLING PERFORMANCE.......................................................................... 41 3.5.1.3 HEATING PERFORMANCE.......................................................................... 45 3.5.1.4 COMBINED HEATING AND COOLING PERFORMANCE..................................... 46 3.5.2 INSTANTANEOUS AND DAILY ENERGY FLOWS................................................ 47 3.6 MODELING PERFORMANCE ANALYSIS.......................................................... 51 3.6.1 TRNSYS COMPONENT SIMULATION METHODOLOGY.................................. 51 3.6.2 CASE STUDY SIMULATION SCENARIOS ......................................................... 52 3.6.3 RESULTS.................................................................................................. 52 3.6.3.1 COLD PRODUCTION (Q SS . HP ).................................................................... 57 3.6.3.2 SEASONAL PERFORMANCE FACTOR (SPFEI.THC) ............................................. 57 3.7 INDICATIVE COMMERCIAL ANALYSIS............................................................ 58 3.8 QUALITY ASSURANCE CHECKLIST................................................................. 61 3.8.1 LESSONS LEARNED.................................................................................... 61 3.8.2 EVALUATION AGAINST PRINCIPLES.............................................................. 62 REFERENCES ............................................................................................ 64 4 CASE STUDY OF A SOLAR COOLING SYSTEM COMBINING AN ABSORPTION CHILLER WITH DOMESTIC HOT WATER PRODUCTION.................................................... 67 4.1 APPLICATION DESCRIPTION AND DESIGN PHILOSOPHY................................. 67 4.1.1 BACKGROUND.......................................................................................... 67 4.1.2 RATIONALE FOR THE SELECTED CONFIGURATION ............................................ 68 4.2 SOLAR COOLING PROCESS - DESCRIPTION AND DESIGN PHILOSOPHY ............. 69 4.2.1 FLOWSHEET DESCRIPTION.......................................................................... 69 4.2.2 CONTROL PHILOSOPHY............................................................................. 71 4.2.2.1 COOLING/HOT WATER MODE SELECTION..................................................... 71 4.2.2.2 CONTROL OF SOLAR PRIMARY CIRCUIT PUMP (PUMP 1) .............................. 72 4.2.2.3 CONTROL OF THE SOLAR SECONDARY CIRCUIT PUMP (PUMP 2) .................... 72 4.2.2.4 CONTROL OF THE ABSORPTION CHILLER (PUMPS 3, 4 AND 5, COOLER FAN) ..... 72 4.2.2.5 CONTROL OF THE DOMESTIC HOT WATER HEATING PUMPS (PUMPS 6 AND 7) 73 4.3 EQUIPMENT SPECIFICATIONS ................................................................... 73 4.3.1 ABSORPTION CHILLER................................................................................ 73 4.3.2 SOLAR COLLECTOR FIELD.............................................................................. 75 4.3.3 EVAPORATIVELY-COOLED DRY COOLER......................................................... 77 4.3.4 THERMAL STORAGE TANK.......................................................................... 78 4.3.5 DRAIN-BACK TANK................................................................................... 79 4.3.6 PUMPS.................................................................................................. 79 4.4 HAZARD, OPERABILITY AND INSTALLATION EXPERIENCES ............................... 80 4.4.1 HAZARD MANAGEMENT ........................................................................... 80 4.4.2 INSTALLATION EXPERIENCES ...................................................................... 80 4.4.2.1 ARCHITECTURAL ISSUES............................................................................. 82 4.4.2.2 INSTALLER SKILLS....................................................................................... 82 4A2.3 USE OF THE STAIRWELL.............................................................................. 82 4.4.2.4 INSTALLATION IN AN OCCUPIED BUILDING ....................... 82 4A.2.5 EVAPORATOR CIRCUIT CONNECTION TO THE MAIN CHILLED WATER CIRCUIT 82 4.4.3 COMMISSIONING/INITIAL STARTUP ............................................................ 83 4.4.4 OVERALL PERFORMANCE MONITORING ........................................................ 83 4.5 CASE STUDY SYSTEM PERFORMANCE......................................................... 83 4.5.1 MONTHLY ENERGY FLOWS ......................................................................... 83 4.5.1.1 SOURCE OF HEAT.................................................................................... 85 4.5.1.2 COOLING AND HEATING PERFORMANCE .................................................... 85 4.5.2 DAILY ENERGY FLOWS............................................................................... 86 4.6 MODELING PERFORMANCE ANALYSIS.......................................................... 87 4.6.1 TRNSYS COMPONENT SIMULATION METHODOLOGY ................................. 87 4.6.2 RESULTS.................................................................................................. 87 4.6.2.1 SOLAR COLLECTOR TILT ANGLE SCENARIO ANALYSIS......................................... 90 4.7 INDICATIVE COMMERCIAL ANALYSIS ........................................................... 91 4.7.1 ACTUAL PROJECT...................................................................................... 91 4.7.1.1 CAPITAL INVESTMENT COST..................................................................... 91 4.7.1.2 ANNUAL OPERATING AND MAINTENANCE COSTS......................................... 92 4.7.2 GREENFIELD SITES (IEA TASK 48 METHODOLOGY)..................................... 94 4.8 QUALITY ASSURANCE CHECKLIST................................................................ 94 4.8.1 LESSONS LEARNED ................................................................................... 94 4.8.2 EVALUATION AGAINST PRINCIPLES.............................................................. 95 REFERENCES............................................................................................ 97 5 DESIGN GUIDE FOR SOLAR COOLING WITH DOUBLE-EFFECT ABSORPTION CHILLERS.. 99 5.1 APPLICATION DESCRIPTION AND DESIGN PHILOSOPHY ................................ 99 5.1.1 BACKGROUND......................................................................................... 99 5.1.2 RATIONALE FOR THE SELECTED CONFIGURATION ............................................ 100 5.1.2.1 SOLAR COLLECTOR FIELD SELECTION/SIZING................................................... 101 5.1.2.2 BACKUP HEAT SOURCE............................................................................. 102 5.1.2.3 HYDRAULICS........................................................................................... 102 5.2 SOLAR COOLING PROCESS DESCRIPTION...................................................... 104 5.2.1 FLOWSHEET DESCRIPTION ......................................................................... 104 5.2.2 CONTROL PHILOSOPHY ............................................................................. 105 5.2.2.1 SOLAR FLOW LOOP.................................................................................... 105 5.2.2.2 CHILLER PROCESS FLOW LOOP .................................................................... 106 5.2.2.3 COOLING WATER FLOW LOOP..................................................................... 108 5.3 EQUIPMENT SPECIFICATION..................................................................... 108 5.3.1 ABSORPTION CHILLER............................................................................... 110 5.3.2 SOLAR COLLECTOR FIELD ............................................................................. 110 5.3.3 THERMAL STORAGE TANK ......................................................................... 112 5.3.4 PUMPS.................................................................................................. 113 5.4 HAZARD AND OPERABILITY........................................................................ 114 5.4.1 HAZARD MANAGEMENT........................................................................... 114 5.4.2 COMMISSIONING/INITIAL STARTUP............................................................ 115 5.5 CASE STUDY SYSTEM PERFORMANCE......................................................... 117 5.6 DESIGN PERFORMANCE ANALYSIS.............................................................. 120 5.6.1 TRNSYS COMPONENT SIMULATION METHODOLOGY ................................. 120 5.6.2 CASE STUDY SIMULATION SCENARIOS......................................................... 122 5.6.3 RESULTS.................................................................................................. 122 5.6.3.1 STORAGE TANK SIZING, SYDNEY LOCATION ................................................. 122 5 . 63.2 IMPACT OF CLIMATE ................................................................................. 124 5.7 INDICATIVE COMMERCIAL ANALYSIS............................................................ 126 5.8 QUALITY ASSURANCE CHECKLIST................................................................. 133 5.8.1 LESSONS LEARNED.................................................................................... 133 5.8.2 EVALUATION AGAINST PRINCIPLES .............................................................. 134 REFERENCES............................................................................................. 137 INDEX......................................................................................................... 139
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spelling	The solar cooling design guide case studies of successful solar air conditioning design edited by Daniel Mugnier, Daniel Neyer and Stephen White Berlin Ernst & Sohn [2017] © 2017 XIX, 139 Seiten Illustrationen, Diagramme (teilweise farbig) txt rdacontent n rdamedia nc rdacarrier Solar heating and cooling Solartechnik (DE-588)145489-4 gnd rswk-swf Klimaanlage (DE-588)4120572-8 gnd rswk-swf Energie Energieeffizienz Energy Energy Efficiency Erneuerbare Energien Renewable Energy Solar Energy & Photovoltaics Solarenergie u. Photovoltaik Klimaanlage (DE-588)4120572-8 s Solartechnik (DE-588)145489-4 f DE-604 Mugnier, Daniel edt Neyer, Daniel edt White, Stephen D. edt Wilhelm Ernst & Sohn (DE-588)2026876-2 pbl Erscheint auch als Online-Ausgabe, ePDF 978-3-433-60685-8 Erscheint auch als Online-Ausgabe, ePub 978-3-433-60686-5 Erscheint auch als Online-Ausgabe, eMobi 978-3-433-60687-2 Erscheint auch als Online-Ausgabe, oBook 978-3-433-60684-1 http://www.wiley-vch.de/publish/dt/books/ISBN978-3-433-03125-4/ Verlag DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029945227&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	The solar cooling design guide case studies of successful solar air conditioning design Solartechnik (DE-588)145489-4 gnd Klimaanlage (DE-588)4120572-8 gnd
subject_GND	(DE-588)145489-4 (DE-588)4120572-8
title	The solar cooling design guide case studies of successful solar air conditioning design
title_auth	The solar cooling design guide case studies of successful solar air conditioning design
title_exact_search	The solar cooling design guide case studies of successful solar air conditioning design
title_full	The solar cooling design guide case studies of successful solar air conditioning design edited by Daniel Mugnier, Daniel Neyer and Stephen White
title_fullStr	The solar cooling design guide case studies of successful solar air conditioning design edited by Daniel Mugnier, Daniel Neyer and Stephen White
title_full_unstemmed	The solar cooling design guide case studies of successful solar air conditioning design edited by Daniel Mugnier, Daniel Neyer and Stephen White
title_short	The solar cooling design guide
title_sort	the solar cooling design guide case studies of successful solar air conditioning design
title_sub	case studies of successful solar air conditioning design
topic	Solartechnik (DE-588)145489-4 gnd Klimaanlage (DE-588)4120572-8 gnd
topic_facet	Solartechnik Klimaanlage
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-433-03125-4/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029945227&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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