Verfügbarkeit: Microgrids :: THWS Bibkatalog

Microgrids:

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Bibliographische Detailangaben
Hauptverfasser:	Sanjeevikumar, Padmanaban 1978- (VerfasserIn), Nithiyananthan, K. (VerfasserIn), Karthikeyan, S. Prabhakar (VerfasserIn), Holm-Nielsen, Jens Bo (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boca Raton ; London ; New York CRC Press 2021
Ausgabe:	First edition
Schlagworte:	Microgrids (Smart power grids)
Online-Zugang:	TUM01
Beschreibung:	Description based on publisher supplied metadata and other sources
Beschreibung:	1 Online-Ressource (x, 92 Seiten) Illustrationen, Diagramme, Pläne
ISBN:	9781000226850 9780367815929

Internformat

MARC


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250			\|a First edition
264		1	\|a Boca Raton ; London ; New York \|b CRC Press \|c 2021
264		4	\|c © 2021
300			\|a 1 Online-Ressource (x, 92 Seiten) \|b Illustrationen, Diagramme, Pläne
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505	8		\|a Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Contributors -- 1. Introduction to Microgrids -- 1. Introduction -- 1.1. Features of a Microgrid -- 1.2. Microgrid Standards -- 1.3. Architecture of a Microgrid -- 2. Technical Challenges in Microgrids -- 2.1. Prerequisites to Efficiently Operate a Microgrid -- 2.2. Classification of Microgrid [12] -- 3. Basic Components of a Microgrid -- 3.1. Distribution Generations (DGs) Power System -- 3.2. Storage Devices -- 3.3. Control Techniques -- 3.3.1 Grid-Connected Mode -- 3.3.2 Microgrid Island Mode [21,22] -- 3.3.3 Microgrid Central Control Method -- 3.3.4 Point of Common Coupling -- References -- 2. Renewable Energy Sources -- 1. Introduction -- 1.1. Wind Turbines -- 1.2. PV Cells -- 1.3. Microturbines -- 1.4. Fuel Cells -- 2. Hybrid PV-Wind System -- 3. FC System -- 4. Back-Up Components -- 4.1. Introduction -- 4.2. Diesel Generator -- 4.3. Battery -- 4.4. Inverter -- 4.5. Control Equipment -- 5. System Optimization -- 5.1. Cost Optimization -- 5.2. Efficiency Optimization -- 6. Need for Hybrid Renewable Energy Systems -- 6.1. Advantages of Hybrid Power Systems -- 6.2. Simulation Tools for Hybrid PV Systems -- 7. Hybrid Optimization Model For Electric Renewable -- 7.1. Numerical Simulation Results -- 7.2. Optimization -- 7.3. Sensitivity Analysis -- 7.4. Economic Modelling -- 7.5. Environmental Analysis -- 7.6. Generators, Boiler, and Reformer -- 7.7. Grid -- 8. Location and Load Data -- 8.1. Resource Data -- 8.2. Components and Cost Assessment -- 9. HOMER Modeling -- 9.1. Simulation -- 9.2. Optimization -- 10. Conclusion -- References -- 3. AC/DC Microgrids -- 1. Introduction -- 1.1. Island Mode -- 1.2. Grid-Connected Mode -- 2. Power Supply Types of Microgrids -- 2.1. DC Microgrid -- 2.2. An AC Microgrid -- 2.3. Inverter -- 2.4. Boost Converter -- 2.5. AC/DC Microgrid
505	8		\|a 3. Distributed Generation Sources-Based Microgrids -- 4. Scenario-Based Microgrids -- 4.1. Campus Environment or Institutional Microgrids -- 4.2. Remote Island Microgrids -- 4.3. Military Microgrids -- 4.4. Residence and Industrial Microgrids -- 5. Size of the Microgrids -- 6. Comparison of AC and DC Microgrid -- References -- 4. Microgrid Modeling and Simulations -- 1. Introduction -- 2. Loads -- 2.1. Renewable Energy Resources (RERs) -- 3. Modeling of Photovoltaic Cell -- 3.1. PV System -- 3.2. PV Module -- 3.3. PV Array -- 3.4. Working of PV Cell -- 3.4.1 Implementation Benefits and Drawbacks -- 4. Maximum Power Point Tracking -- 4.1. The Necessity of MPPT -- 4.2. Algorithms for Tracking of Maximum Power Point -- 5. Wind Power Productions -- 5.1. Wind Energy Conversion System -- 5.2. Types of Wind Power Generator -- 5.2.1 Constant Speed -- 5.2.2 Variable Speed -- 5.2.3 Variable Speed with Partial-Scale Frequency Converter -- 5.2.4 Implementation Benefits and Drawbacks -- 6. Energy Storage System -- 6.1. Batteries -- 6.1.1 Implementation Benefits and Drawbacks -- 6.2. Microturbine -- 6.2.1 Implementation Benefits and Drawbacks -- 6.3. Flywheel -- 6.3.1 Implementation Benefits and Drawbacks -- 6.4. Fuel cell -- 6.4.1 Implementation Benefits and Drawbacks -- 6.5. Converters -- 6.6. Electric Vehicle -- 6.6.1 Implementation Benefits and Drawbacks -- 6.7. ESS Control Strategies -- 7. Simulation Results -- 7.1. Simulations of PV Array -- 7.2. Simulation of Doubly Fed Induction Generator -- 7.3. Simulations Results of Hybrid Grid -- 5. Conclusion and Future Scope -- Future Scope -- References -- Chapter 1 -- Chapter 2 -- Chapters 3, 4, and 5 -- Index
650		4	\|a Microgrids (Smart power grids)
700	1		\|a Nithiyananthan, K. \|e Verfasser \|4 aut
700	1		\|a Karthikeyan, S. Prabhakar \|e Verfasser \|4 aut
700	1		\|a Holm-Nielsen, Jens Bo \|e Verfasser \|0 (DE-588)1157033725 \|4 aut
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Datensatz im Suchindex

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author	Sanjeevikumar, Padmanaban 1978- Nithiyananthan, K. Karthikeyan, S. Prabhakar Holm-Nielsen, Jens Bo
author_GND	(DE-588)1220850691 (DE-588)1157033725
author_facet	Sanjeevikumar, Padmanaban 1978- Nithiyananthan, K. Karthikeyan, S. Prabhakar Holm-Nielsen, Jens Bo
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author_sort	Sanjeevikumar, Padmanaban 1978-
author_variant	p s ps k n kn s p k sp spk j b h n jbh jbhn
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contents	Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Contributors -- 1. Introduction to Microgrids -- 1. Introduction -- 1.1. Features of a Microgrid -- 1.2. Microgrid Standards -- 1.3. Architecture of a Microgrid -- 2. Technical Challenges in Microgrids -- 2.1. Prerequisites to Efficiently Operate a Microgrid -- 2.2. Classification of Microgrid [12] -- 3. Basic Components of a Microgrid -- 3.1. Distribution Generations (DGs) Power System -- 3.2. Storage Devices -- 3.3. Control Techniques -- 3.3.1 Grid-Connected Mode -- 3.3.2 Microgrid Island Mode [21,22] -- 3.3.3 Microgrid Central Control Method -- 3.3.4 Point of Common Coupling -- References -- 2. Renewable Energy Sources -- 1. Introduction -- 1.1. Wind Turbines -- 1.2. PV Cells -- 1.3. Microturbines -- 1.4. Fuel Cells -- 2. Hybrid PV-Wind System -- 3. FC System -- 4. Back-Up Components -- 4.1. Introduction -- 4.2. Diesel Generator -- 4.3. Battery -- 4.4. Inverter -- 4.5. Control Equipment -- 5. System Optimization -- 5.1. Cost Optimization -- 5.2. Efficiency Optimization -- 6. Need for Hybrid Renewable Energy Systems -- 6.1. Advantages of Hybrid Power Systems -- 6.2. Simulation Tools for Hybrid PV Systems -- 7. Hybrid Optimization Model For Electric Renewable -- 7.1. Numerical Simulation Results -- 7.2. Optimization -- 7.3. Sensitivity Analysis -- 7.4. Economic Modelling -- 7.5. Environmental Analysis -- 7.6. Generators, Boiler, and Reformer -- 7.7. Grid -- 8. Location and Load Data -- 8.1. Resource Data -- 8.2. Components and Cost Assessment -- 9. HOMER Modeling -- 9.1. Simulation -- 9.2. Optimization -- 10. Conclusion -- References -- 3. AC/DC Microgrids -- 1. Introduction -- 1.1. Island Mode -- 1.2. Grid-Connected Mode -- 2. Power Supply Types of Microgrids -- 2.1. DC Microgrid -- 2.2. An AC Microgrid -- 2.3. Inverter -- 2.4. Boost Converter -- 2.5. AC/DC Microgrid 3. Distributed Generation Sources-Based Microgrids -- 4. Scenario-Based Microgrids -- 4.1. Campus Environment or Institutional Microgrids -- 4.2. Remote Island Microgrids -- 4.3. Military Microgrids -- 4.4. Residence and Industrial Microgrids -- 5. Size of the Microgrids -- 6. Comparison of AC and DC Microgrid -- References -- 4. Microgrid Modeling and Simulations -- 1. Introduction -- 2. Loads -- 2.1. Renewable Energy Resources (RERs) -- 3. Modeling of Photovoltaic Cell -- 3.1. PV System -- 3.2. PV Module -- 3.3. PV Array -- 3.4. Working of PV Cell -- 3.4.1 Implementation Benefits and Drawbacks -- 4. Maximum Power Point Tracking -- 4.1. The Necessity of MPPT -- 4.2. Algorithms for Tracking of Maximum Power Point -- 5. Wind Power Productions -- 5.1. Wind Energy Conversion System -- 5.2. Types of Wind Power Generator -- 5.2.1 Constant Speed -- 5.2.2 Variable Speed -- 5.2.3 Variable Speed with Partial-Scale Frequency Converter -- 5.2.4 Implementation Benefits and Drawbacks -- 6. Energy Storage System -- 6.1. Batteries -- 6.1.1 Implementation Benefits and Drawbacks -- 6.2. Microturbine -- 6.2.1 Implementation Benefits and Drawbacks -- 6.3. Flywheel -- 6.3.1 Implementation Benefits and Drawbacks -- 6.4. Fuel cell -- 6.4.1 Implementation Benefits and Drawbacks -- 6.5. Converters -- 6.6. Electric Vehicle -- 6.6.1 Implementation Benefits and Drawbacks -- 6.7. ESS Control Strategies -- 7. Simulation Results -- 7.1. Simulations of PV Array -- 7.2. Simulation of Doubly Fed Induction Generator -- 7.3. Simulations Results of Hybrid Grid -- 5. Conclusion and Future Scope -- Future Scope -- References -- Chapter 1 -- Chapter 2 -- Chapters 3, 4, and 5 -- Index
ctrlnum	(ZDB-30-PQE)EBC6369329 (ZDB-30-PAD)EBC6369329 (ZDB-89-EBL)EBL6369329 (OCoLC)1202479747 (DE-599)BVBBV047442063
dewey-full	621.30999999999995
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	621 - Applied physics
dewey-raw	621.30999999999995
dewey-search	621.30999999999995
dewey-sort	3621.30999999999995
dewey-tens	620 - Engineering and allied operations
discipline	Energietechnik, Energiewirtschaft Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik
discipline_str_mv	Energietechnik, Energiewirtschaft Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik
edition	First edition
format	Electronic eBook
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spelling	Sanjeevikumar, Padmanaban 1978- Verfasser (DE-588)1220850691 aut Microgrids Sanjeevikumar Padmanaban, K. Nithiyananthan, S. Prabhakar Karthikeyan, and Jens Bo Holm-Nielsen First edition Boca Raton ; London ; New York CRC Press 2021 © 2021 1 Online-Ressource (x, 92 Seiten) Illustrationen, Diagramme, Pläne txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Contributors -- 1. Introduction to Microgrids -- 1. Introduction -- 1.1. Features of a Microgrid -- 1.2. Microgrid Standards -- 1.3. Architecture of a Microgrid -- 2. Technical Challenges in Microgrids -- 2.1. Prerequisites to Efficiently Operate a Microgrid -- 2.2. Classification of Microgrid [12] -- 3. Basic Components of a Microgrid -- 3.1. Distribution Generations (DGs) Power System -- 3.2. Storage Devices -- 3.3. Control Techniques -- 3.3.1 Grid-Connected Mode -- 3.3.2 Microgrid Island Mode [21,22] -- 3.3.3 Microgrid Central Control Method -- 3.3.4 Point of Common Coupling -- References -- 2. Renewable Energy Sources -- 1. Introduction -- 1.1. Wind Turbines -- 1.2. PV Cells -- 1.3. Microturbines -- 1.4. Fuel Cells -- 2. Hybrid PV-Wind System -- 3. FC System -- 4. Back-Up Components -- 4.1. Introduction -- 4.2. Diesel Generator -- 4.3. Battery -- 4.4. Inverter -- 4.5. Control Equipment -- 5. System Optimization -- 5.1. Cost Optimization -- 5.2. Efficiency Optimization -- 6. Need for Hybrid Renewable Energy Systems -- 6.1. Advantages of Hybrid Power Systems -- 6.2. Simulation Tools for Hybrid PV Systems -- 7. Hybrid Optimization Model For Electric Renewable -- 7.1. Numerical Simulation Results -- 7.2. Optimization -- 7.3. Sensitivity Analysis -- 7.4. Economic Modelling -- 7.5. Environmental Analysis -- 7.6. Generators, Boiler, and Reformer -- 7.7. Grid -- 8. Location and Load Data -- 8.1. Resource Data -- 8.2. Components and Cost Assessment -- 9. HOMER Modeling -- 9.1. Simulation -- 9.2. Optimization -- 10. Conclusion -- References -- 3. AC/DC Microgrids -- 1. Introduction -- 1.1. Island Mode -- 1.2. Grid-Connected Mode -- 2. Power Supply Types of Microgrids -- 2.1. DC Microgrid -- 2.2. An AC Microgrid -- 2.3. Inverter -- 2.4. Boost Converter -- 2.5. AC/DC Microgrid 3. Distributed Generation Sources-Based Microgrids -- 4. Scenario-Based Microgrids -- 4.1. Campus Environment or Institutional Microgrids -- 4.2. Remote Island Microgrids -- 4.3. Military Microgrids -- 4.4. Residence and Industrial Microgrids -- 5. Size of the Microgrids -- 6. Comparison of AC and DC Microgrid -- References -- 4. Microgrid Modeling and Simulations -- 1. Introduction -- 2. Loads -- 2.1. Renewable Energy Resources (RERs) -- 3. Modeling of Photovoltaic Cell -- 3.1. PV System -- 3.2. PV Module -- 3.3. PV Array -- 3.4. Working of PV Cell -- 3.4.1 Implementation Benefits and Drawbacks -- 4. Maximum Power Point Tracking -- 4.1. The Necessity of MPPT -- 4.2. Algorithms for Tracking of Maximum Power Point -- 5. Wind Power Productions -- 5.1. Wind Energy Conversion System -- 5.2. Types of Wind Power Generator -- 5.2.1 Constant Speed -- 5.2.2 Variable Speed -- 5.2.3 Variable Speed with Partial-Scale Frequency Converter -- 5.2.4 Implementation Benefits and Drawbacks -- 6. Energy Storage System -- 6.1. Batteries -- 6.1.1 Implementation Benefits and Drawbacks -- 6.2. Microturbine -- 6.2.1 Implementation Benefits and Drawbacks -- 6.3. Flywheel -- 6.3.1 Implementation Benefits and Drawbacks -- 6.4. Fuel cell -- 6.4.1 Implementation Benefits and Drawbacks -- 6.5. Converters -- 6.6. Electric Vehicle -- 6.6.1 Implementation Benefits and Drawbacks -- 6.7. ESS Control Strategies -- 7. Simulation Results -- 7.1. Simulations of PV Array -- 7.2. Simulation of Doubly Fed Induction Generator -- 7.3. Simulations Results of Hybrid Grid -- 5. Conclusion and Future Scope -- Future Scope -- References -- Chapter 1 -- Chapter 2 -- Chapters 3, 4, and 5 -- Index Microgrids (Smart power grids) Nithiyananthan, K. Verfasser aut Karthikeyan, S. Prabhakar Verfasser aut Holm-Nielsen, Jens Bo Verfasser (DE-588)1157033725 aut Erscheint auch als Padmanaban, Sanjeevikumar Microgrids Milton : Taylor & Francis Group,c2020 Druck-Ausgabe, Hardcover 978-0-367-41718-5 Erscheint auch als Druck-Ausgabe, Paperback 978-0-367-61261-0
spellingShingle	Sanjeevikumar, Padmanaban 1978- Nithiyananthan, K. Karthikeyan, S. Prabhakar Holm-Nielsen, Jens Bo Microgrids Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Contributors -- 1. Introduction to Microgrids -- 1. Introduction -- 1.1. Features of a Microgrid -- 1.2. Microgrid Standards -- 1.3. Architecture of a Microgrid -- 2. Technical Challenges in Microgrids -- 2.1. Prerequisites to Efficiently Operate a Microgrid -- 2.2. Classification of Microgrid [12] -- 3. Basic Components of a Microgrid -- 3.1. Distribution Generations (DGs) Power System -- 3.2. Storage Devices -- 3.3. Control Techniques -- 3.3.1 Grid-Connected Mode -- 3.3.2 Microgrid Island Mode [21,22] -- 3.3.3 Microgrid Central Control Method -- 3.3.4 Point of Common Coupling -- References -- 2. Renewable Energy Sources -- 1. Introduction -- 1.1. Wind Turbines -- 1.2. PV Cells -- 1.3. Microturbines -- 1.4. Fuel Cells -- 2. Hybrid PV-Wind System -- 3. FC System -- 4. Back-Up Components -- 4.1. Introduction -- 4.2. Diesel Generator -- 4.3. Battery -- 4.4. Inverter -- 4.5. Control Equipment -- 5. System Optimization -- 5.1. Cost Optimization -- 5.2. Efficiency Optimization -- 6. Need for Hybrid Renewable Energy Systems -- 6.1. Advantages of Hybrid Power Systems -- 6.2. Simulation Tools for Hybrid PV Systems -- 7. Hybrid Optimization Model For Electric Renewable -- 7.1. Numerical Simulation Results -- 7.2. Optimization -- 7.3. Sensitivity Analysis -- 7.4. Economic Modelling -- 7.5. Environmental Analysis -- 7.6. Generators, Boiler, and Reformer -- 7.7. Grid -- 8. Location and Load Data -- 8.1. Resource Data -- 8.2. Components and Cost Assessment -- 9. HOMER Modeling -- 9.1. Simulation -- 9.2. Optimization -- 10. Conclusion -- References -- 3. AC/DC Microgrids -- 1. Introduction -- 1.1. Island Mode -- 1.2. Grid-Connected Mode -- 2. Power Supply Types of Microgrids -- 2.1. DC Microgrid -- 2.2. An AC Microgrid -- 2.3. Inverter -- 2.4. Boost Converter -- 2.5. AC/DC Microgrid 3. Distributed Generation Sources-Based Microgrids -- 4. Scenario-Based Microgrids -- 4.1. Campus Environment or Institutional Microgrids -- 4.2. Remote Island Microgrids -- 4.3. Military Microgrids -- 4.4. Residence and Industrial Microgrids -- 5. Size of the Microgrids -- 6. Comparison of AC and DC Microgrid -- References -- 4. Microgrid Modeling and Simulations -- 1. Introduction -- 2. Loads -- 2.1. Renewable Energy Resources (RERs) -- 3. Modeling of Photovoltaic Cell -- 3.1. PV System -- 3.2. PV Module -- 3.3. PV Array -- 3.4. Working of PV Cell -- 3.4.1 Implementation Benefits and Drawbacks -- 4. Maximum Power Point Tracking -- 4.1. The Necessity of MPPT -- 4.2. Algorithms for Tracking of Maximum Power Point -- 5. Wind Power Productions -- 5.1. Wind Energy Conversion System -- 5.2. Types of Wind Power Generator -- 5.2.1 Constant Speed -- 5.2.2 Variable Speed -- 5.2.3 Variable Speed with Partial-Scale Frequency Converter -- 5.2.4 Implementation Benefits and Drawbacks -- 6. Energy Storage System -- 6.1. Batteries -- 6.1.1 Implementation Benefits and Drawbacks -- 6.2. Microturbine -- 6.2.1 Implementation Benefits and Drawbacks -- 6.3. Flywheel -- 6.3.1 Implementation Benefits and Drawbacks -- 6.4. Fuel cell -- 6.4.1 Implementation Benefits and Drawbacks -- 6.5. Converters -- 6.6. Electric Vehicle -- 6.6.1 Implementation Benefits and Drawbacks -- 6.7. ESS Control Strategies -- 7. Simulation Results -- 7.1. Simulations of PV Array -- 7.2. Simulation of Doubly Fed Induction Generator -- 7.3. Simulations Results of Hybrid Grid -- 5. Conclusion and Future Scope -- Future Scope -- References -- Chapter 1 -- Chapter 2 -- Chapters 3, 4, and 5 -- Index Microgrids (Smart power grids)
title	Microgrids
title_auth	Microgrids
title_exact_search	Microgrids
title_exact_search_txtP	Microgrids
title_full	Microgrids Sanjeevikumar Padmanaban, K. Nithiyananthan, S. Prabhakar Karthikeyan, and Jens Bo Holm-Nielsen
title_fullStr	Microgrids Sanjeevikumar Padmanaban, K. Nithiyananthan, S. Prabhakar Karthikeyan, and Jens Bo Holm-Nielsen
title_full_unstemmed	Microgrids Sanjeevikumar Padmanaban, K. Nithiyananthan, S. Prabhakar Karthikeyan, and Jens Bo Holm-Nielsen
title_short	Microgrids
title_sort	microgrids
topic	Microgrids (Smart power grids)
topic_facet	Microgrids (Smart power grids)
work_keys_str_mv	AT sanjeevikumarpadmanaban microgrids AT nithiyananthank microgrids AT karthikeyansprabhakar microgrids AT holmnielsenjensbo microgrids

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