Verfügbarkeit: Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies

Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies:

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Bibliographische Detailangaben
1. Verfasser:	Lammert, Gustav (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Kassel kassel university press [2019]
Schriftenreihe:	Energy management and power system operation vol. 9
Schlagworte:	Spannungsregelung Fotovoltaikanlage Netzstabilität > Elektrische Energietechnik Spannungsstabilisierung Stability Generic photovoltaic system model fault-induced delayed voltage recovery low voltage ride-through power system stability short-term voltage stability Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xviii, 183 Seiten Illustrationen 21 cm, 275 g
ISBN:	9783737607162 3737607168

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adam_text	CONTENTS 1 INTRODUCTION 1 1.1 MOTIVATION ................................................................................................ 1 1.2 LITERATURE REVIEW ................................................................................... 4 1.3 CONTRIBUTIONS ......................................................................................... 6 1.4 STRUCTURE ................................................................................................ 8 2 STABILITY DEFINITIONS AND ANALYSIS METHODS 9 2.1 INTRODUCTION ............................................................................................. 9 2.2 DEFINITIONS AND CLASSIFICATION ................................................................. 10 2.2.1 SHORT-TERM VOLTAGE STABILITY .................................................... 11 2.2.2 TRANSIENT STABILITY .................................................................... 12 2.2.3 FREQUENCY STABILITY .................................................................... 13 2.2.4 FAULT-INDUCED DELAYED VOLTAGE RECOVERY .................................. 13 2.2.5 DISTINCTION BETWEEN SHORT-TERM VOLTAGE AND TRANSIENT STABILITY 14 2.3 TIME-DOMAIN SIMULATION ....................................................................... 15 2.3.1 TIME SCALE ................................................................................... 15 2.3.2 POWER SYSTEM MODELLING .......................................................... 18 2.3.3 NUMERICAL INTEGRATION METHODS .............................................. 18 2.3.4 TIME STEP ................................................................................... 18 2.4 CRITICAL CLEARING TIME ............................................................................. 19 2.5 KULLBACK-LEIBLER DIVERGENCE MEASURE ................................................. 20 2.5.1 VOLTAGE VIOLATION CRITERION ....................................................... 21 2.5.2 PROBABILITY DENSITY FUNCTION OF VOLTAGE SAMPLE ....................... 22 2.5.3 PROBABILITY DENSITY FUNCTION OF REFERENCE VOLTAGE RECOVERY . . 23 2.5.4 CALCULATION OF DIVERGENCE MEASURE ........................................... 24 2.5.5 LIMITATIONS OF KULLBACK-LEIBLER DIVERGENCE MEASURE ............ 25 2.6 VOLTAGE RECOVERY INDEX .......................................................................... 26 2.6.1 VOLTAGE VIOLATION CRITERION ....................................................... 26 2.6.2 PROBABILITY DENSITY FUNCTION OF VOLTAGE SAMPLE ....................... 26 2.6.3 WEIGHTING FUNCTION .................................................................... 28 2.6.4 CALCULATION OF INDEX ................................................................. 29 2.7 CONCLUSIONS AND FUTURE WORK ................................................................. 30 XVI 3 MODELLING AND CONTROL OF PHOTOVOLTAIC SYSTEMS 31 3.1 INTRODUCTION ............................................................................................. 31 3.2 MODEL ....................................................................................................... 32 3.2.1 OVERVIEW .............................................. 32 3.2.2 GENERATOR/CONVERTER MODEL ........................................................ 34 3.2.3 ELECTRICAL CONTROL MODEL ........................................................... 35 3.2.4 PLANT CONTROL MODEL .................................................................... 37 3.3 CONTROL ................................................................................................... 38 3.3.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT ... 39 3.3.2 ACTIVE CURRENT RECOVERY RATE ..................................................... 42 3.3.3 LOCAL VOLTAGE CONTROL ................................................................. 43 3.3.4 PLANT-LEVEL VOLTAGE CONTROL ........................................................ 44 3.3.5 COMBINATIONS OF CONTROL MODES ............................................... 45 3.4 PARAMETERS ............................................................................................. 46 3.4.1 GENERATOR / CONVERTER MODEL ........................................................ 46 3.4.2 ELECTRICAL CONTROL MODEL ........................................................... 46 3.4.3 PLANT CONTROL MODEL .................................................................... 46 3.5 TEST SYSTEM ............................................................................................. 47 3.5.1 OVERVIEW .................................................................................... 47 3.5.2 OPERATING POINT .......................................................................... 47 3.5.3 CONTINGENCY ................................................................................. 48 3.6 VALIDATION ................................................................................................ 49 3.6.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT ... 49 3.6.2 ACTIVE CURRENT RECOVERY RATE ...................................................... 50 3.6.3 LOCAL VOLTAGE CONTROL ................................................................. 50 3.6.4 PLANT-LEVEL VOLTAGE CONTROL ........................................................ 50 3.7 OPEN SOURCE ............................................................................................. 51 3.8 CONCLUSIONS AND FUTURE WORK .................................................................. 52 4 STABILITY ANALYSIS OF A ONE-LOAD INFINITE-BUS SYSTEM 53 4.1 INTRODUCTION ............................................................................................. 53 4.2 TEST SYSTEM ............................................................................................. 54 4.2.1 OVERVIEW .................................................................................... 54 4.2.2 LOAD MODELLING .......................................................................... 56 4.2.3 MODELLING OF PHOTOVOLTAIC SYSTEM ........................................... 60 4.2.4 OPERATING POINT .......................................................................... 61 4.2.5 CONTINGENCY ................................................................................. 62 4.3 CASE STUDIES ............................................................................................. 63 4.3.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT ... 63 4.3.2 ACTIVE CURRENT RECOVERY RATE ..................................................... 68 4.3.3 LOCAL VOLTAGE CONTROL ................................................................. 72 4.3.4 PLANT-LEVEL VOLTAGE CONTROL ........................................................ 76 4.4 CONCLUSIONS AND FUTURE WORK .................................................................. 80 XVII 5 STABILITY ANALYSIS OF A MULTI-MACHINE SYSTEM 81 5.1 INTRODUCTION ............................................................................................. 81 5.2 TEST SYSTEM ............................................................................................. 82 5.2.1 OVERVIEW .................................................................................... 82 5.2.2 LOAD MODELLING .......................................................................... 85 5.2.3 SUBSTITUTION OF SYNCHRONOUS GENERATORS .................................. 85 5.2.4 MODELLING OF PHOTOVOLTAIC SYSTEMS ........................................... 86 5.2.5 OPERATING POINT .......................................................................... 87 5.2.6 CONTINGENCIES .............................................................................. 88 5.3 CASE STUDIES ............................................................................................. 89 5.3.1 WITHOUT PHOTOVOLTAIC SYSTEMS .................................................. 89 5.3.2 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT ... 90 5.3.3 ACTIVE CURRENT RECOVERY RATE ..................................................... 96 5.3.4 LOCAL VOLTAGE CONTROL ................................................................. 101 5.3.5 PLANT-LEVEL VOLTAGE CONTROL ........................................................ 106 5.4 CONCLUSIONS AND FUTURE WORK ................................................................. 110 6 CONCLUSIONS AND FUTURE WORK 111 6.1 CONCLUSIONS ............................................................................................. ILL 6.2 FUTURE WORK ............................................................................................. 114 APPENDICES 117 A STABILITY DEFINITIONS AND ANALYSIS METHODS 119 A. L KULLBACK-LEIBLER DIVERGENCE MEASURE ................................................. 119 A. 1.1 VOLTAGE VIOLATION CRITERION ....................................................... 119 A. 1.2 PROBABILITY DENSITY FUNCTION OF VOLTAGE SAMPLE ..................... 119 A. 2 VOLTAGE RECOVERY INDEX ......................................................................... 120 A. 2.1 WEIGHTING FUNCTION ................................................................... 120 B MODELLING AND CONTROL OF PHOTOVOLTAIC SYSTEMS 121 B. L MODEL ..................................................................................................... 121 B. 1.1 ELECTRICAL CONTROL MODEL ........................................................... 121 B. 2 PARAMETERS ............................................................................................ 124 B. 2.1 GENERATOR / CONVERTER MODEL ....................................................... 124 B. 2. 2 ELECTRICAL CONTROL MODEL .......................................................... 125 B.2. 3 PLANT CONTROL MODEL ................................................................... 127 B.3 TEST SYSTEM ............................................................................................ 129 B.3.1 OVERVIEW ................................................................................... 129 B.4 VALIDATION ............................................................................................... 130 B.4.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . . . 130 B.4. 2 ACTIVE CURRENT RECOVERY RATE ..................................................... 132 B.4. 3 LOCAL VOLTAGE CONTROL ................................................................. 135 B.4. 4 PLANT-LEVEL VOLTAGE CONTROL ........................................................ 137 XVIII C STABILITY ANALYSIS OF A ONE-LOAD INFINITE-BUS SYSTEM 141 C. L TEST SYSTEM ............................................................................................. 141 0.1.1 OVERVIEW ..................................................................................... 141 C. L. 2 LOAD MODELLING ................................... 142 C. L. 3 MODELLING OF PHOTOVOLTAIC SYSTEM ............................................ 143 C. L. 4 OPERATING POINT ........................................................................... 143 C. 2 CASE STUDIES ............................................................................................ 144 0.2.1 ACTIVE CURRENT RECOVERY RATE ..................................................... 144 0.2.2 LOCAL VOLTAGE CONTROL .................................................................. 145 0.2.3 PLANT-LEVEL VOLTAGE CONTROL ......................................................... 146 D STABILITY ANALYSIS OF A MULTI-MACHINE SYSTEM 147 D. L TEST SYSTEM ............................................................................................ 147 0.1.1 OVERVIEW ..................................................................................... 147 D. L. 2 LOAD MODELLING ............................................................................ 148 D. L. 3 MODELLING OF PHOTOVOLTAIC SYSTEMS ............................................. 151 0.1.4 OPERATING POINT ............................................................................ 153 0.2 CASE STUDIES ............................................................................................ 155 0.2.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . . . 155 0.2.2 ACTIVE CURRENT RECOVERY RATE ...................................................... 158 0.2.3 LOCAL VOLTAGE CONTROL ................................................................. 160 0.2.4 PLANT-LEVEL VOLTAGE CONTROL ........................................................ 163 NOMENCLATURE 165 BIBLIOGRAPHY 175
adam_txt	CONTENTS 1 INTRODUCTION 1 1.1 MOTIVATION . 1 1.2 LITERATURE REVIEW . 4 1.3 CONTRIBUTIONS . 6 1.4 STRUCTURE . 8 2 STABILITY DEFINITIONS AND ANALYSIS METHODS 9 2.1 INTRODUCTION . 9 2.2 DEFINITIONS AND CLASSIFICATION . 10 2.2.1 SHORT-TERM VOLTAGE STABILITY . 11 2.2.2 TRANSIENT STABILITY . 12 2.2.3 FREQUENCY STABILITY . 13 2.2.4 FAULT-INDUCED DELAYED VOLTAGE RECOVERY . 13 2.2.5 DISTINCTION BETWEEN SHORT-TERM VOLTAGE AND TRANSIENT STABILITY 14 2.3 TIME-DOMAIN SIMULATION . 15 2.3.1 TIME SCALE . 15 2.3.2 POWER SYSTEM MODELLING . 18 2.3.3 NUMERICAL INTEGRATION METHODS . 18 2.3.4 TIME STEP . 18 2.4 CRITICAL CLEARING TIME . 19 2.5 KULLBACK-LEIBLER DIVERGENCE MEASURE . 20 2.5.1 VOLTAGE VIOLATION CRITERION . 21 2.5.2 PROBABILITY DENSITY FUNCTION OF VOLTAGE SAMPLE . 22 2.5.3 PROBABILITY DENSITY FUNCTION OF REFERENCE VOLTAGE RECOVERY . . 23 2.5.4 CALCULATION OF DIVERGENCE MEASURE . 24 2.5.5 LIMITATIONS OF KULLBACK-LEIBLER DIVERGENCE MEASURE . 25 2.6 VOLTAGE RECOVERY INDEX . 26 2.6.1 VOLTAGE VIOLATION CRITERION . 26 2.6.2 PROBABILITY DENSITY FUNCTION OF VOLTAGE SAMPLE . 26 2.6.3 WEIGHTING FUNCTION . 28 2.6.4 CALCULATION OF INDEX . 29 2.7 CONCLUSIONS AND FUTURE WORK . 30 XVI 3 MODELLING AND CONTROL OF PHOTOVOLTAIC SYSTEMS 31 3.1 INTRODUCTION . 31 3.2 MODEL . 32 3.2.1 OVERVIEW . 32 3.2.2 GENERATOR/CONVERTER MODEL . 34 3.2.3 ELECTRICAL CONTROL MODEL . 35 3.2.4 PLANT CONTROL MODEL . 37 3.3 CONTROL . 38 3.3.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . 39 3.3.2 ACTIVE CURRENT RECOVERY RATE . 42 3.3.3 LOCAL VOLTAGE CONTROL . 43 3.3.4 PLANT-LEVEL VOLTAGE CONTROL . 44 3.3.5 COMBINATIONS OF CONTROL MODES . 45 3.4 PARAMETERS . 46 3.4.1 GENERATOR / CONVERTER MODEL . 46 3.4.2 ELECTRICAL CONTROL MODEL . 46 3.4.3 PLANT CONTROL MODEL . 46 3.5 TEST SYSTEM . 47 3.5.1 OVERVIEW . 47 3.5.2 OPERATING POINT . 47 3.5.3 CONTINGENCY . 48 3.6 VALIDATION . 49 3.6.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . 49 3.6.2 ACTIVE CURRENT RECOVERY RATE . 50 3.6.3 LOCAL VOLTAGE CONTROL . 50 3.6.4 PLANT-LEVEL VOLTAGE CONTROL . 50 3.7 OPEN SOURCE . 51 3.8 CONCLUSIONS AND FUTURE WORK . 52 4 STABILITY ANALYSIS OF A ONE-LOAD INFINITE-BUS SYSTEM 53 4.1 INTRODUCTION . 53 4.2 TEST SYSTEM . 54 4.2.1 OVERVIEW . 54 4.2.2 LOAD MODELLING . 56 4.2.3 MODELLING OF PHOTOVOLTAIC SYSTEM . 60 4.2.4 OPERATING POINT . 61 4.2.5 CONTINGENCY . 62 4.3 CASE STUDIES . 63 4.3.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . 63 4.3.2 ACTIVE CURRENT RECOVERY RATE . 68 4.3.3 LOCAL VOLTAGE CONTROL . 72 4.3.4 PLANT-LEVEL VOLTAGE CONTROL . 76 4.4 CONCLUSIONS AND FUTURE WORK . 80 XVII 5 STABILITY ANALYSIS OF A MULTI-MACHINE SYSTEM 81 5.1 INTRODUCTION . 81 5.2 TEST SYSTEM . 82 5.2.1 OVERVIEW . 82 5.2.2 LOAD MODELLING . 85 5.2.3 SUBSTITUTION OF SYNCHRONOUS GENERATORS . 85 5.2.4 MODELLING OF PHOTOVOLTAIC SYSTEMS . 86 5.2.5 OPERATING POINT . 87 5.2.6 CONTINGENCIES . 88 5.3 CASE STUDIES . 89 5.3.1 WITHOUT PHOTOVOLTAIC SYSTEMS . 89 5.3.2 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . 90 5.3.3 ACTIVE CURRENT RECOVERY RATE . 96 5.3.4 LOCAL VOLTAGE CONTROL . 101 5.3.5 PLANT-LEVEL VOLTAGE CONTROL . 106 5.4 CONCLUSIONS AND FUTURE WORK . 110 6 CONCLUSIONS AND FUTURE WORK 111 6.1 CONCLUSIONS . ILL 6.2 FUTURE WORK . 114 APPENDICES 117 A STABILITY DEFINITIONS AND ANALYSIS METHODS 119 A. L KULLBACK-LEIBLER DIVERGENCE MEASURE . 119 A. 1.1 VOLTAGE VIOLATION CRITERION . 119 A. 1.2 PROBABILITY DENSITY FUNCTION OF VOLTAGE SAMPLE . 119 A. 2 VOLTAGE RECOVERY INDEX . 120 A. 2.1 WEIGHTING FUNCTION . 120 B MODELLING AND CONTROL OF PHOTOVOLTAIC SYSTEMS 121 B. L MODEL . 121 B. 1.1 ELECTRICAL CONTROL MODEL . 121 B. 2 PARAMETERS . 124 B. 2.1 GENERATOR / CONVERTER MODEL . 124 B. 2. 2 ELECTRICAL CONTROL MODEL . 125 B.2. 3 PLANT CONTROL MODEL . 127 B.3 TEST SYSTEM . 129 B.3.1 OVERVIEW . 129 B.4 VALIDATION . 130 B.4.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . . . 130 B.4. 2 ACTIVE CURRENT RECOVERY RATE . 132 B.4. 3 LOCAL VOLTAGE CONTROL . 135 B.4. 4 PLANT-LEVEL VOLTAGE CONTROL . 137 XVIII C STABILITY ANALYSIS OF A ONE-LOAD INFINITE-BUS SYSTEM 141 C. L TEST SYSTEM . 141 0.1.1 OVERVIEW . 141 C. L. 2 LOAD MODELLING . 142 C. L. 3 MODELLING OF PHOTOVOLTAIC SYSTEM . 143 C. L. 4 OPERATING POINT . 143 C. 2 CASE STUDIES . 144 0.2.1 ACTIVE CURRENT RECOVERY RATE . 144 0.2.2 LOCAL VOLTAGE CONTROL . 145 0.2.3 PLANT-LEVEL VOLTAGE CONTROL . 146 D STABILITY ANALYSIS OF A MULTI-MACHINE SYSTEM 147 D. L TEST SYSTEM . 147 0.1.1 OVERVIEW . 147 D. L. 2 LOAD MODELLING . 148 D. L. 3 MODELLING OF PHOTOVOLTAIC SYSTEMS . 151 0.1.4 OPERATING POINT . 153 0.2 CASE STUDIES . 155 0.2.1 LOW VOLTAGE RIDE-THROUGH AND DYNAMIC VOLTAGE SUPPORT . . . 155 0.2.2 ACTIVE CURRENT RECOVERY RATE . 158 0.2.3 LOCAL VOLTAGE CONTROL . 160 0.2.4 PLANT-LEVEL VOLTAGE CONTROL . 163 NOMENCLATURE 165 BIBLIOGRAPHY 175
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV046782065
illustrated	Illustrated
index_date	2024-07-03T14:50:18Z
indexdate	2024-07-10T08:53:40Z
institution	BVB
institution_GND	(DE-588)1066127425
isbn	9783737607162 3737607168
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032191225
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	xviii, 183 Seiten Illustrationen 21 cm, 275 g
publishDate	2019
publishDateSearch	2019
publishDateSort	2019
publisher	kassel university press
record_format	marc
series	Energy management and power system operation
series2	Energy management and power system operation
spelling	Lammert, Gustav Verfasser aut Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies Gustav Lammert Kassel kassel university press [2019] xviii, 183 Seiten Illustrationen 21 cm, 275 g txt rdacontent n rdamedia nc rdacarrier Energy management and power system operation vol. 9 Dissertation University of Kassel 2019 Spannungsregelung (DE-588)4182084-8 gnd rswk-swf Fotovoltaikanlage (DE-588)7614403-3 gnd rswk-swf Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 gnd rswk-swf Spannungsstabilisierung (DE-588)4056008-9 gnd rswk-swf 1\p Stability (DLC)sh85127185 http://id.loc.gov/authorities/subjects/sh85127185 lcsh Generic photovoltaic system model fault-induced delayed voltage recovery low voltage ride-through power system stability short-term voltage stability (DE-588)4113937-9 Hochschulschrift gnd-content Fotovoltaikanlage (DE-588)7614403-3 s Spannungsstabilisierung (DE-588)4056008-9 s Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 s Spannungsregelung (DE-588)4182084-8 s DE-604 kassel university press (DE-588)1066127425 pbl Erscheint auch als Online-Ausgabe Modelling, Control and Stability Analysis of Photovoltaic Systems in Power System Dynamic Studies Kassel : Kassel University Press, 2019 Online-Ressource Energy management and power system operation vol. 9 (DE-604)BV043191667 vol. 9 B:DE-101 application/pdf https://d-nb.info/1189845938/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032191225&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p maschinell gebildet 0,01724 20200423 DE-101
spellingShingle	Lammert, Gustav Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies Energy management and power system operation Spannungsregelung (DE-588)4182084-8 gnd Fotovoltaikanlage (DE-588)7614403-3 gnd Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 gnd Spannungsstabilisierung (DE-588)4056008-9 gnd 1\p Stability (DLC)sh85127185 http://id.loc.gov/authorities/subjects/sh85127185 lcsh
subject_GND	(DE-588)4182084-8 (DE-588)7614403-3 (DE-588)4415875-0 (DE-588)4056008-9 (DLC)sh85127185 http://id.loc.gov/authorities/subjects/sh85127185 (DE-588)4113937-9
title	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies
title_auth	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies
title_exact_search	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies
title_exact_search_txtP	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies
title_full	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies Gustav Lammert
title_fullStr	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies Gustav Lammert
title_full_unstemmed	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies Gustav Lammert
title_short	Modelling, control and stability analysis of photovoltaic systems in power system dynamic studies
title_sort	modelling control and stability analysis of photovoltaic systems in power system dynamic studies
topic	Spannungsregelung (DE-588)4182084-8 gnd Fotovoltaikanlage (DE-588)7614403-3 gnd Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 gnd Spannungsstabilisierung (DE-588)4056008-9 gnd 1\p Stability (DLC)sh85127185 http://id.loc.gov/authorities/subjects/sh85127185 lcsh
topic_facet	Spannungsregelung Fotovoltaikanlage Netzstabilität Elektrische Energietechnik Spannungsstabilisierung Stability Hochschulschrift
url	https://d-nb.info/1189845938/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032191225&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV043191667
work_keys_str_mv	AT lammertgustav modellingcontrolandstabilityanalysisofphotovoltaicsystemsinpowersystemdynamicstudies AT kasseluniversitypress modellingcontrolandstabilityanalysisofphotovoltaicsystemsinpowersystemdynamicstudies

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