Verfügbarkeit: Operation optimization and control for security enhancement of power systems integrated with HVDC systems

Operation optimization and control for security enhancement of power systems integrated with HVDC systems:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Zhou, Yang 1991- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Düren Shaker Verlag 2021
Schriftenreihe:	Dortmunder Beiträge zu Energiesystemen, Energieeffizienz und Energiewirtschaft Band 20
Schlagworte:	Spannungsgeführter Stromrichter Elektrizitätsversorgungsnetz Versorgungssicherheit Netzstabilität > Elektrische Energietechnik Hochspannungsgleichstromübertragung HVDC system security enhancement transmission system Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIX, 131 Seiten 45 Illustrationen 21 cm x 14.8 cm, 230 g
ISBN:	9783844081763 3844081763

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Datensatz im Suchindex

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adam_text	CONTENTS ABSTRACT .......................................................................................................................................... I ACKNOWLEDGEMENTS .................................................................................................................... ILL NOMENCLATURE .............................................................................................................................. V CONTENTS ...................................................................................................................................... XI LIST OF FIGURES .......................................................................................................................... XV LIST OF TABLES ...........................................................................................................................XIX 1 INTRODUCTION ............................................................................................................................ 1 1.1 BACKGROUND AND MOTIVATION .............................................................................................. 1 1.2 CHALLENGES AND RESEARCH QUESTIONS ................................................................................. 3 1.3 OBJECTIVES OF THE DISSERTATION ........................................................................................... 5 1.4 OUTLINES OF THE DISSERTATION ............................................................................................... 6 2 STATE OF RESEARCH AND TECHNOLOGY ....................................................................................... 9 2.1 TRANSMISSION CONGESTION DEFINITION AND BASIC CONCEPTS .............................................. 9 2.1.1 GENERAL CAUSES OF CONGESTION ................................................................................ 9 2.1.2 IMPACTS OF CONGESTION ............................................................................................ 10 2.1.3 TRADITIONAL MEASURES FOR ALLEVIATING TRANSMISSION CONGESTION ......................... 10 2.2 REVIEW OF GENERAL METHODS ............................................................................................ 11 2.2.1 OPTIMIZATION MODEL-BASED METHODS ..................................................................... 11 2.2.2 SENSITIVITY-BASED METHODS ..................................................................................... 13 2.2.3 COMPARISON OF OPTIMIZATION MODEL AND SENSITIVITY-BASED METHODS .................. 14 2.2.4 FLEXIBLE DEVICE-BASED METHODS ............................................................................. 14 2.3 REVIEW OF HVDC OPERATION TO ENHANCE POWER SYSTEM SECURITY ................................ 17 2.3.1 PLACEMENT OF HVDC SYSTEMS IN THE POWER SYSTEM ............................................. 17 2.3.2 OPTIMIZATION METHOD FOR HVDC OPERATION ......................................................... 18 2.3.3 NON-OPTIMIZATION METHOD FOR HVDC OPERATION ................................................ 21 2.3.4 DYNAMIC CORRECTIVE CONTROL ................................................................................. 22 2.4 SUMMARY .......................................................................................................................... 23 3 ACCESS POINT SELECTION AND CAPACITY CONFIGURATION FOR THE VSC-HVDC SYSTEM .... 25 3.1 DESIGN OF COMPREHENSIVE SENSITIVITY FACTOR FOR THE VSC-HVDC SYSTEM .............. 25 3.1.1 OVERLOAD LEVEL DEFINITION .................................................................................. 25 XI CONTENTS 3.1.2 POWER SENSITIVITY CONCEPT ..................................................................................... 26 3.1.3 DESIGN OF COMPREHENSIVE SENSITIVITY FACTOR ........................................................ 27 3.2 MULTI-OBJECTIVE OPTIMIZATION MODELLING FOR THE AC/DC POWER SYSTEM ..................... 28 3.2.1 OVERLOAD INDEX FUNCTION ......................................................................................... 29 3.2.2 ECONOMIC INVESTMENT FUNCTION .............................................................................. 29 3.2.3 CONSTRAINTS ............................................................................................................... 31 3.2.4 MULTI-OBJECTIVE OPTIMIZATION MODEL ..................................................................... 32 3.2.5 CAPACITY CONFIGURATION AND EVALUATION INDICES .................................................... 32 3.3 METHOD FOR LOCATION SELECTION AND CAPACITY DETERMINATION OF VSC-HVDC SYSTEM 33 3.4 RESULTS OF ACCESS SCHEME SELECTION BY THE APSCC METHOD ........................................ 36 3.4.1 SYSTEM DESCRIPTION AND IDENTIFICATION OF LINE OVERLOAD SCENARIOS .................... 36 3.4.2 INITIAL AND PRIMARY SELECTION OF CANDIDATE SCHEMES FOR THE VSC-HVDC SYSTEM ...................................................................................................................... 38 3.4.3 DETERMINATION OF FINAL SCHEME BASED ON MULTI-OBJECTIVE OPTIMIZATION MODELLING AND EVALUATIONS .................................................................................... 40 3.4.4 DISCUSSIONS ON THE APSCC METHOD ....................................................................... 43 3.5 OPTIMIZATION OPERATION BY THE VSC-HVDC SYSTEM UNDER THE APSCC METHOD ....... 43 3.5.1 OPTIMIZATION FRAMEWORK ....................................................................................... 44 3.5.2 PERFORMANCE ANALYSIS OF OPTIMIZATION SCHEMES .................................................. 46 3.5.3 COMPARISON OF ECONOMIC COST OF DIFFERENT CONTROL SCHEMES ............................ 48 3.6 SUMMARY ........................................................................................................................... 49 4 JOINT CORRECTIVE OPTIMIZATION BASED ON THE VSC-HVDC AND DISTRIBUTED ENERGY STORAGE .................................................................................................................................... 51 4.1 OVERALL DESIGN FOR JOINT CORRECTIVE MEASURE ................................................................... 53 4.2 THEORETICAL ANALYSIS OF POWER FLOW REGULATION WITH THE VSC-HVDC AND DES DEVICES .............................................................................................................................. 53 4.2.1 POWER FLOW RELATIONSHIP BETWEEN AC BRANCH AND BUS ........................................ 53 4.2.2 ANALYSIS OF POWER OVERFLOW REGULATION WITH THE EMBEDDED VSC-HVDC AND DES DEVICES ........................................................................................................... 55 4.3 DETERMINATION OF ACTION AREA AND THRESHOLD ................................................................. 56 4.3.1 DEFINITION AND DETERMINATION OF ACTION AREA ...................................................... 56 4.3.2 DESIGN OF DYNAMIC SEARCH METHOD FOR ACTION THRESHOLD .................................... 57 4.4 JOINT CORRECTIVE OPTIMIZATION MODELLING ........................................................................ 59 XII CONTENTS 4.4.1 JOINT CORRECTIVE OPTIMIZATION FORMULATION .......................................................... 59 4.4.2 OBJECTIVE FUNCTION ................................................................................................. 59 4.4.3 SYSTEM STEADY-STATE CONSTRAINTS ........................................................................... 60 4.5 NUMERICAL SIMULATIONS .................................................................................................... 61 4.5.1 MODIFIED 39-BUS HYBRID AC/DC POWER SYSTEM .................................................. 61 4.5.2 MODIFIED 1 18-BUS HYBRID AC/DC POWER SYSTEM ................................................ 65 4.6 SUMMARY .......................................................................................................................... 68 5 VOLTAGE ANGLE DROOP CONTROLLED HVDC SYSTEMS FOR CORRECTIVE CONGESTION MANAGEMENT ........................................................................................................................ 69 5.1 CONTROL STRUCTURE OF THE VAD-HVDC SYSTEM ............................................................... 69 5.2 ALGORITHM ANALYSIS OF THE VAD CONTROL ...................................................................... 70 5.3 DETERMINATION METHOD OF THE DROOP GAIN ..................................................................... 72 5.4 VALIDATION AND STATIC PERFORMANCE EVALUATION .............................................................. 75 5.4.1 SYSTEM SETUPS AND ANALYSIS ................................................................................... 75 5.4.2 VALIDATION OF THE VAD METHOD IN N-L CONTINGENCIES ......................................... 75 5.4.3 STATIC PERFORMANCE EVALUATION AND ANALYSIS IN DIFFERENT LOAD SCENARIOS ........ 78 5.5 DYNAMIC SIMULATION AND BEHAVIOR ANALYSIS ................................................................. 80 5.5.1 CALCULATION RESULTS OF DROOP PARAMETER ............................................................... 81 5.5.2 DYNAMIC BEHAVIOR IN THE VAD-HVDC SYSTEM .................................................... 83 5.5.3 DYNAMIC RESPONSES ON THE AC TRANSMISSION LINES ............................................. 85 5.6 SUMMARY ......................................................................................................................... 86 6 A DYNAMIC CORRECTIVE CONTROL METHOD FOR CONGESTION MITIGATION ............................. 87 6.1 SYSTEM CONGESTION DEFINITION AND CONTROL OBJECTIVE .................................................. 87 6.2 POWER SENSITIVITY OF HVDC TO CONGESTED BRANCH ........................................................ 88 6.3 ACTIVATION MECHANISM OF CORRECTIVE CONTROL ACTION .................................................... 88 6.3.1 REGULATION INDEX OF CONGESTED LINE .................................................................... 88 6.3.2 ACTIVATION FUNCTION ............................................................................................... 89 6.4 DETERMINATION OF ACTION DIRECTION .................................................................................. 89 6.4.1 CONTROL ACTION RULES ANALYSIS ............................................................................... 89 6.4.2 DETERMINATION OF ACTION DIRECTION ........................................................................ 90 6.5 PI CLOSED-LOOP CONTROL STRUCTURE BASED ON HVDC ..................................................... 90 6.5.1 GENERAL HVDC OPERATION STRUCTURE FOR POWER CONTROL ...................................... 90 6.5.2 CLOSED-LOOP CONTROL STRUCTURE ............................................................................. 91 6.6 OVERALL DYNAMIC CORRECTIVE CONTROL METHOD DESIGN ................................................... 91 XIII CONTENTS 6.7 VALIDATION OF THE DCC METHOD AND PERFORMANCE ANALYSIS FOR CONGESTION MITIGATION .......................................................................................................................... 92 6.7.1 SCENARIO 1: SINGLE-CONGESTION SCENARIO ................................................................ 93 6.7.2 SCENARIO 2: DUAL-CONGESTION SCENARIO ................................................................... 96 6.7.3 SCENARIO 3: MULTI-CONGESTION SCENARIO ................................................................. 98 6.7.4 SCENARIO 4: ANOTHER TYPE OF MULTI-CONGESTION SCENARIO ................................... 101 6.7.5 DISCUSSION ON ABOVE FOUR SCENARIOS ................................................................... 103 6.8 ROBUSTNESS ANALYSIS OF THE DCC METHOD ..................................................................... 104 6.9 SUMMARY ......................................................................................................................... 107 7 CONCLUSIONS AND FUTURE WORKS ....................................................................................... 109 7.1 CONCLUSIONS ..................................................................................................................... 109 7.2 FUTURE WORKS .................................................................................................................. 112 REFERENCES ................................................................................................................................... 113 ACADEMIC PUBLICATIONS AND WORKS ......................................................................................... 127 CURRICULUM VITAE ...................................................................................................................... 131
adam_txt	CONTENTS ABSTRACT . I ACKNOWLEDGEMENTS . ILL NOMENCLATURE . V CONTENTS . XI LIST OF FIGURES . XV LIST OF TABLES .XIX 1 INTRODUCTION . 1 1.1 BACKGROUND AND MOTIVATION . 1 1.2 CHALLENGES AND RESEARCH QUESTIONS . 3 1.3 OBJECTIVES OF THE DISSERTATION . 5 1.4 OUTLINES OF THE DISSERTATION . 6 2 STATE OF RESEARCH AND TECHNOLOGY . 9 2.1 TRANSMISSION CONGESTION DEFINITION AND BASIC CONCEPTS . 9 2.1.1 GENERAL CAUSES OF CONGESTION . 9 2.1.2 IMPACTS OF CONGESTION . 10 2.1.3 TRADITIONAL MEASURES FOR ALLEVIATING TRANSMISSION CONGESTION . 10 2.2 REVIEW OF GENERAL METHODS . 11 2.2.1 OPTIMIZATION MODEL-BASED METHODS . 11 2.2.2 SENSITIVITY-BASED METHODS . 13 2.2.3 COMPARISON OF OPTIMIZATION MODEL AND SENSITIVITY-BASED METHODS . 14 2.2.4 FLEXIBLE DEVICE-BASED METHODS . 14 2.3 REVIEW OF HVDC OPERATION TO ENHANCE POWER SYSTEM SECURITY . 17 2.3.1 PLACEMENT OF HVDC SYSTEMS IN THE POWER SYSTEM . 17 2.3.2 OPTIMIZATION METHOD FOR HVDC OPERATION . 18 2.3.3 NON-OPTIMIZATION METHOD FOR HVDC OPERATION . 21 2.3.4 DYNAMIC CORRECTIVE CONTROL . 22 2.4 SUMMARY . 23 3 ACCESS POINT SELECTION AND CAPACITY CONFIGURATION FOR THE VSC-HVDC SYSTEM . 25 3.1 DESIGN OF COMPREHENSIVE SENSITIVITY FACTOR FOR THE VSC-HVDC SYSTEM . 25 3.1.1 OVERLOAD LEVEL DEFINITION . 25 XI CONTENTS 3.1.2 POWER SENSITIVITY CONCEPT . 26 3.1.3 DESIGN OF COMPREHENSIVE SENSITIVITY FACTOR . 27 3.2 MULTI-OBJECTIVE OPTIMIZATION MODELLING FOR THE AC/DC POWER SYSTEM . 28 3.2.1 OVERLOAD INDEX FUNCTION . 29 3.2.2 ECONOMIC INVESTMENT FUNCTION . 29 3.2.3 CONSTRAINTS . 31 3.2.4 MULTI-OBJECTIVE OPTIMIZATION MODEL . 32 3.2.5 CAPACITY CONFIGURATION AND EVALUATION INDICES . 32 3.3 METHOD FOR LOCATION SELECTION AND CAPACITY DETERMINATION OF VSC-HVDC SYSTEM 33 3.4 RESULTS OF ACCESS SCHEME SELECTION BY THE APSCC METHOD . 36 3.4.1 SYSTEM DESCRIPTION AND IDENTIFICATION OF LINE OVERLOAD SCENARIOS . 36 3.4.2 INITIAL AND PRIMARY SELECTION OF CANDIDATE SCHEMES FOR THE VSC-HVDC SYSTEM . 38 3.4.3 DETERMINATION OF FINAL SCHEME BASED ON MULTI-OBJECTIVE OPTIMIZATION MODELLING AND EVALUATIONS . 40 3.4.4 DISCUSSIONS ON THE APSCC METHOD . 43 3.5 OPTIMIZATION OPERATION BY THE VSC-HVDC SYSTEM UNDER THE APSCC METHOD . 43 3.5.1 OPTIMIZATION FRAMEWORK . 44 3.5.2 PERFORMANCE ANALYSIS OF OPTIMIZATION SCHEMES . 46 3.5.3 COMPARISON OF ECONOMIC COST OF DIFFERENT CONTROL SCHEMES . 48 3.6 SUMMARY . 49 4 JOINT CORRECTIVE OPTIMIZATION BASED ON THE VSC-HVDC AND DISTRIBUTED ENERGY STORAGE . 51 4.1 OVERALL DESIGN FOR JOINT CORRECTIVE MEASURE . 53 4.2 THEORETICAL ANALYSIS OF POWER FLOW REGULATION WITH THE VSC-HVDC AND DES DEVICES . 53 4.2.1 POWER FLOW RELATIONSHIP BETWEEN AC BRANCH AND BUS . 53 4.2.2 ANALYSIS OF POWER OVERFLOW REGULATION WITH THE EMBEDDED VSC-HVDC AND DES DEVICES . 55 4.3 DETERMINATION OF ACTION AREA AND THRESHOLD . 56 4.3.1 DEFINITION AND DETERMINATION OF ACTION AREA . 56 4.3.2 DESIGN OF DYNAMIC SEARCH METHOD FOR ACTION THRESHOLD . 57 4.4 JOINT CORRECTIVE OPTIMIZATION MODELLING . 59 XII CONTENTS 4.4.1 JOINT CORRECTIVE OPTIMIZATION FORMULATION . 59 4.4.2 OBJECTIVE FUNCTION . 59 4.4.3 SYSTEM STEADY-STATE CONSTRAINTS . 60 4.5 NUMERICAL SIMULATIONS . 61 4.5.1 MODIFIED 39-BUS HYBRID AC/DC POWER SYSTEM . 61 4.5.2 MODIFIED 1 18-BUS HYBRID AC/DC POWER SYSTEM . 65 4.6 SUMMARY . 68 5 VOLTAGE ANGLE DROOP CONTROLLED HVDC SYSTEMS FOR CORRECTIVE CONGESTION MANAGEMENT . 69 5.1 CONTROL STRUCTURE OF THE VAD-HVDC SYSTEM . 69 5.2 ALGORITHM ANALYSIS OF THE VAD CONTROL . 70 5.3 DETERMINATION METHOD OF THE DROOP GAIN . 72 5.4 VALIDATION AND STATIC PERFORMANCE EVALUATION . 75 5.4.1 SYSTEM SETUPS AND ANALYSIS . 75 5.4.2 VALIDATION OF THE VAD METHOD IN N-L CONTINGENCIES . 75 5.4.3 STATIC PERFORMANCE EVALUATION AND ANALYSIS IN DIFFERENT LOAD SCENARIOS . 78 5.5 DYNAMIC SIMULATION AND BEHAVIOR ANALYSIS . 80 5.5.1 CALCULATION RESULTS OF DROOP PARAMETER . 81 5.5.2 DYNAMIC BEHAVIOR IN THE VAD-HVDC SYSTEM . 83 5.5.3 DYNAMIC RESPONSES ON THE AC TRANSMISSION LINES . 85 5.6 SUMMARY . 86 6 A DYNAMIC CORRECTIVE CONTROL METHOD FOR CONGESTION MITIGATION . 87 6.1 SYSTEM CONGESTION DEFINITION AND CONTROL OBJECTIVE . 87 6.2 POWER SENSITIVITY OF HVDC TO CONGESTED BRANCH . 88 6.3 ACTIVATION MECHANISM OF CORRECTIVE CONTROL ACTION . 88 6.3.1 REGULATION INDEX OF CONGESTED LINE . 88 6.3.2 ACTIVATION FUNCTION . 89 6.4 DETERMINATION OF ACTION DIRECTION . 89 6.4.1 CONTROL ACTION RULES ANALYSIS . 89 6.4.2 DETERMINATION OF ACTION DIRECTION . 90 6.5 PI CLOSED-LOOP CONTROL STRUCTURE BASED ON HVDC . 90 6.5.1 GENERAL HVDC OPERATION STRUCTURE FOR POWER CONTROL . 90 6.5.2 CLOSED-LOOP CONTROL STRUCTURE . 91 6.6 OVERALL DYNAMIC CORRECTIVE CONTROL METHOD DESIGN . 91 XIII CONTENTS 6.7 VALIDATION OF THE DCC METHOD AND PERFORMANCE ANALYSIS FOR CONGESTION MITIGATION . 92 6.7.1 SCENARIO 1: SINGLE-CONGESTION SCENARIO . 93 6.7.2 SCENARIO 2: DUAL-CONGESTION SCENARIO . 96 6.7.3 SCENARIO 3: MULTI-CONGESTION SCENARIO . 98 6.7.4 SCENARIO 4: ANOTHER TYPE OF MULTI-CONGESTION SCENARIO . 101 6.7.5 DISCUSSION ON ABOVE FOUR SCENARIOS . 103 6.8 ROBUSTNESS ANALYSIS OF THE DCC METHOD . 104 6.9 SUMMARY . 107 7 CONCLUSIONS AND FUTURE WORKS . 109 7.1 CONCLUSIONS . 109 7.2 FUTURE WORKS . 112 REFERENCES . 113 ACADEMIC PUBLICATIONS AND WORKS . 127 CURRICULUM VITAE . 131
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV047482600
illustrated	Illustrated
index_date	2024-07-03T18:13:04Z
indexdate	2024-07-10T09:13:20Z
institution	BVB
isbn	9783844081763 3844081763
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032884063
oclc_num	1291704507
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	XIX, 131 Seiten 45 Illustrationen 21 cm x 14.8 cm, 230 g
publishDate	2021
publishDateSearch	2021
publishDateSort	2021
publisher	Shaker Verlag
record_format	marc
series	Dortmunder Beiträge zu Energiesystemen, Energieeffizienz und Energiewirtschaft
series2	Dortmunder Beiträge zu Energiesystemen, Energieeffizienz und Energiewirtschaft
spelling	Zhou, Yang 1991- Verfasser (DE-588)1242129146 aut Operation optimization and control for security enhancement of power systems integrated with HVDC systems Yang Zhou Düren Shaker Verlag 2021 XIX, 131 Seiten 45 Illustrationen 21 cm x 14.8 cm, 230 g txt rdacontent n rdamedia nc rdacarrier Dortmunder Beiträge zu Energiesystemen, Energieeffizienz und Energiewirtschaft Band 20 Dissertation Technische Universität Dortmund 2021 Spannungsgeführter Stromrichter (DE-588)1125537825 gnd rswk-swf Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd rswk-swf Versorgungssicherheit (DE-588)7839944-0 gnd rswk-swf Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 gnd rswk-swf Hochspannungsgleichstromübertragung (DE-588)4620681-4 gnd rswk-swf HVDC system security enhancement transmission system (DE-588)4113937-9 Hochschulschrift gnd-content Elektrizitätsversorgungsnetz (DE-588)4121178-9 s Hochspannungsgleichstromübertragung (DE-588)4620681-4 s Spannungsgeführter Stromrichter (DE-588)1125537825 s Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 s Versorgungssicherheit (DE-588)7839944-0 s DE-604 Dortmunder Beiträge zu Energiesystemen, Energieeffizienz und Energiewirtschaft Band 20 (DE-604)BV044549599 20 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032884063&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20210727 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Zhou, Yang 1991- Operation optimization and control for security enhancement of power systems integrated with HVDC systems Dortmunder Beiträge zu Energiesystemen, Energieeffizienz und Energiewirtschaft Spannungsgeführter Stromrichter (DE-588)1125537825 gnd Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd Versorgungssicherheit (DE-588)7839944-0 gnd Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 gnd Hochspannungsgleichstromübertragung (DE-588)4620681-4 gnd
subject_GND	(DE-588)1125537825 (DE-588)4121178-9 (DE-588)7839944-0 (DE-588)4415875-0 (DE-588)4620681-4 (DE-588)4113937-9
title	Operation optimization and control for security enhancement of power systems integrated with HVDC systems
title_auth	Operation optimization and control for security enhancement of power systems integrated with HVDC systems
title_exact_search	Operation optimization and control for security enhancement of power systems integrated with HVDC systems
title_exact_search_txtP	Operation optimization and control for security enhancement of power systems integrated with HVDC systems
title_full	Operation optimization and control for security enhancement of power systems integrated with HVDC systems Yang Zhou
title_fullStr	Operation optimization and control for security enhancement of power systems integrated with HVDC systems Yang Zhou
title_full_unstemmed	Operation optimization and control for security enhancement of power systems integrated with HVDC systems Yang Zhou
title_short	Operation optimization and control for security enhancement of power systems integrated with HVDC systems
title_sort	operation optimization and control for security enhancement of power systems integrated with hvdc systems
topic	Spannungsgeführter Stromrichter (DE-588)1125537825 gnd Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd Versorgungssicherheit (DE-588)7839944-0 gnd Netzstabilität Elektrische Energietechnik (DE-588)4415875-0 gnd Hochspannungsgleichstromübertragung (DE-588)4620681-4 gnd
topic_facet	Spannungsgeführter Stromrichter Elektrizitätsversorgungsnetz Versorgungssicherheit Netzstabilität Elektrische Energietechnik Hochspannungsgleichstromübertragung Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032884063&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV044549599
work_keys_str_mv	AT zhouyang operationoptimizationandcontrolforsecurityenhancementofpowersystemsintegratedwithhvdcsystems

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