Smart Grid Handbook, 3 Volume Set

Couverture
John Wiley & Sons, 1 août 2016 - 1984 pages
Alles Wissenswerte rund um Smart Grids, umfassend und interdisziplinär beschrieben von internationalen Experten aus Forschung und Praxis.

Dieses Buch trägt dem Wunsch nach einem hochkarätigen Referenzwerk zur Smart-Grid-Technologie Rechnung ? eine Technologie, die bei der Entwicklung einer umweltfreundlichen Energieinfrastruktur eine zentrale Rolle spielt. Das dreibändige Smart Grid Handbook mit insgesamt 83 Artikeln ist in sechs Abschnitte unterteilt: Vision and Drivers (Vision und Einflussgrößen), Transmission (Übertragung) Distribution (Verteilung), Smart Meters and Customers (intelligente Zähler und Kunden), Information and Communications Technology (Informations- und Kommunikationstechnik), Socio-Economic Issues (sozialökonomische Aspekte).

Wichtige Merkmale:
- Geschrieben von einem Team, das sich mit Smart Grids auskennt und seine Erfahrung aus den folgenden Bereichen einbringt: Forschung & Entwicklung, Technikeinsatz, Standards, Branchenpraxis und sozialökonomische Aspekte.
- Der Abschnitt Vision and Drivers beschäftigt sich mit Vision, Definitionen, der Weiterentwicklung und globalen Entwicklung von Smart Grids sowie mit neuen Technologien und Standards.
- Der Abschnitt Transmission erläutert Branchenpraxis, Erfahrung im operativen Bereich, Standards, Cybersicherheit und Grid Codes.
- Im Abschnitt Distribution werden Verteilungssysteme und Systemkonfigurationen in verschiedenen Ländern sowie verschiedene Lasten, die über das Netz bedient werden, vorgestellt.
- Der Abschnitt Smart Meters and Customers untersucht, wie Kunden über Smart Meter mit dem Stromnetz interagieren können.

 

Table des matières

Volume 1
xlvii
Preface
lv
2
21
System
27
Role of Demand Response
117
List of Abbreviations
131
Workforce Training and Education on Smart Grids
149
Wide Area Monitoring through Synchrophasor Measurement
163
Industry Practice and Operational Experience of Key Distribution Applications
967
Microgrids in Distribution
995
Integration of Solar Photovoltaics
1019
53
1047
Integration in Distribution Systems
1069
4
1073
Clark Gellings and David Wollman
1107
artjazzAdobe Stock Photos Volume 2
1131

Volume 2
179
Online Monitoring of Dynamics with PMU Data
181
Synchrophasor Device Testing and Related Standards
191
Cascading Failures in Power Systems
215
Remedial Action Schemes and Defense Systems
235
RealTime Management of
245
Practical Deployment of the Modern EMS
261
Dynamic Security Assessment
265
DynamicState Estimation
289
FACTS HVDC and Supergrid
303
Grid Codes in Power Systems with Significant RenewableBased Generation
321
Evaluation of Grid Code Compliance
330
21
357
IEC 61970 for Energy Management System Integration
375
PMU Hardware and Algorithms
405
Industry Practice and Operational Experience of Key Transmission Applications
421
Power System Restoration
445
The Contribution of Load to Restoration
454
Load Modeling
473
Reliability Evaluation in Transmission Systems
489
HVDC Networks for Offshore Wind Power
507
INFORMATION AND COMMUNICATIONS TECHNOLOGY 1357
xl
List of Contributors xlvii
xlvii
Preface lv
lv
Grid Technologies Case Study of Synchrophasors
531
Concluding Comments 537
537
Model Validation and Calibration
547
31
563
Volume 3
573
References
574
Active Management of Electric Vehicles Acting as Distributed Storage
619
Renewable Energy Forecasting
639
Conservation Voltage Reduction
661
Grid Monitoring and State Estimation
687
Advanced Protection Systems
703
Distributed Load Shedding
721
How does US Transmission System Evolution Create Challenges to the Deployment
727
References
744
Defining Measuring and Improving Resilience of Electric Power Systems
747
3
758
Power Electronics for Flexible Distribution Networks
769
Evolution of the Smart Distribution Grid
789
Detailed Analysis of ANM System Requirements
804
Electric Vehicles and V2G Operation
817
Distribution Management System DMS Integrated VoltageVAR Control
861
Reliability Indices
875
Cybersecurity of Distribution Devices and Systems
891
Condition Monitoring and Asset Management in the Smart Grid
905
IEC 61850 for Distribution Systems
919
Application of IEC 61850 to Distribution Systems
931
Overview of Smart Grid Project in Korea and Smart Power Grid Field Test
945
Contents
949
EditorsinChief
iii
This edition first published 2016
iv
Volume 1
vii
Model Validation and Calibration
xvii
Summary and Conclusions
xxiv
List of Contributors xlvii
xlvii
31
xlix
Preface lv
lv
1
1119
Meter Data Collection Management and Analysis
1133
Smart Choices for the Smart Grid
1159
Cyber Security of Smart Meters
1175
Exploiting Flexible Power Electronics
1195
Operational Experience of Microgrids
1213
Microgrid Configuration
1223
DemandSide ResponseHome Energy Management
1235
Demand Response
1253
Standards Security and Smart Meters
1293
Factors Influencing Adoption of Smart Meters
1307
Italy
1323
Smart Meter Health and Exposure Assessment Research
1329
New Approaches to Interoperability
1359
Smart Grid Interoperability Standards
1385
Application of Distributed Intelligence to Industrial Demand Response
1401
Industry Practice and Operational Experience of ICT
1423
Conclusions
1431
Access to Energy Information
1433
VehicletoGrid Technology
1459
3
1466
Primary or Power HardwareintheLoop PHIL Testing
1471
A Model Centric Approach white paper Brookhaven National Laboratory December
1485
Data Analytics for Transmission and Distribution
1487
SystemLevel Simulation for Future Smart Grids
1507
Global Survey of Smart Grid Activities
1529
Acknowledgment
1535
CostBenefit Analysis of Smart Connections of Renewable Distributed Generation
1547
Impact on Electricity Markets
1561
Behavioral Aspects of Smart Meters
1575
Market Design in the Smart Grid
1587
Platform Markets and Energy Services
1597
Acknowledgments
1617
Regulation of Smart Grids
1637
Role of Regulation in the Four Smart Grid Cases
1645
Index
1651
Integration of LargeScale Renewable Energy SourcesSystems RES
1660
564
1664
32
1681
Related Articles
1692
99
1702
102
1712
102
1761
Droits d'auteur

Expressions et termes fréquents

À propos de l'auteur (2016)

Chen-Ching Liu, Boeing Distinguished Professor in the School of Electrical Engineering and Computer Science at Washington State University, is an international leader in smart grid research. He is a fellow of the Institute of Electrical and Electronics Engineers and is internationally recognized for pioneering contributions to the development of decision support systems for power system restoration following major outages. Dr Liu's research interests include cyber-power system vulnerability assessment, wide-area control and protection technologies for the power grid, and engineering and economic issues related to the integration of renewable energy.

Professor Stephen McArthur is currently Head of the Electronic & Electrical Engineering Department at University of Strathclyde, UK. His research interests include: Power engineering applications of Artificial Intelligence; monitoring and diagnosis of nuclear reactors; intelligent and automated power system fault analysis; intelligent system methods; multi-agent systems and intelligent agents and architectures for power engineering applications and decision support environments.

Seung-Jae Lee received his BS and MS in Electrical Engineering from Seoul National University, Korea in 1979 and 1981, respectively and his Ph.D. from University of Washington, Seattle, USA in 1988. He is now a Professor at Myongji University's Department of Electrical Engineering as well as a Director of the Next-generation Power Technology Center (NPTC). He is also a Chairman of IEC TC -57 Mirror Committee, Korea and a CIGRE SC B5 representative of Korea.

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