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Energy Storage for Smart Grids
Planning and Operation for Renewable and Variable Energy Resources (VERs)
1st Edition - October 18, 2014
Authors: Pengwei Du, Ning Lu
Language: English
Hardback ISBN:9780124104914
9 7 8 - 0 - 1 2 - 4 1 0 4 9 1 - 4
eBook ISBN:9780124095434
9 7 8 - 0 - 1 2 - 4 0 9 5 4 3 - 4
Energy storage is a main component of any holistic consideration of smart grids, particularly when incorporating power derived from variable, distributed and renewable energy re…Read more
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Energy storage is a main component of any holistic consideration of smart grids, particularly when incorporating power derived from variable, distributed and renewable energy resources. Energy Storage for Smart Grids delves into detailed coverage of the entire spectrum of available and emerging storage technologies, presented in the context of economic and practical considerations.
Featuring the latest research findings from the world’s foremost energy storage experts, complete with data analysis, field tests, and simulation results, this book helps device manufacturers develop robust business cases for the inclusion of storage in grid applications. It also provides the comparisons and explanations grid planners and operators need to make informed decisions about which storage solutions will be most successful when implemented in operational grids.
Connects the latest research findings in energy storage with strategies for economical and practical implementation in grid systems
Brings together diverse knowledge resources in one comprehensive volume covering all major storage technologies, explained by experts from the world's leading research institutions
Includes detailed data analysis from field tests and simulations to help planners and engineers choose the storage method that will add the most value to their grid operations
Researchers, engineers and scientists working with renewable energy, energy storage and/or grid transmission, power systems planners and operators, energy storage engineers and designers
Preface
Chapter 1: Energy Storage for Mitigating the Variability of Renewable Electricity Sources
Abstract
Acknowledgments
1 Introduction
2 An Overview of Variable Renewable Electricity Sources
3 Electric Energy-Storage Applications and Technologies
4 Discussion
5 Conclusion
Chapter 2: Assessment of Revenue Potentials of Ancillary Service Provision by Flexible Unit Portfolios
Abstract
1 Introduction and Literature Review
2 Aggregators in Electricity Markets
3 Modeling of Revenue Potential
4 Simulation Study
5 Profit-Sharing Methodology
6 Concluding Remarks
Chapter 3: Potential of Sodium-Sulfur Battery Energy Storage to Enable Further Integration of Wind
Abstract
Acknowledgments
1 Introduction
2 Energy storage as an alternative
3 Sodium-Sulfur battery energy storage
4 Generation shifting
5 Ramp-rate limiting
6 Integrating generation shifting and ramp-rate limiting
7 Concluding remarks
Chapter 4: Application of Energy Storage for Fast Regulation Service in Energy Market
Abstract
Acknowledgments
1 Introduction
2 Overview of Secondary Regulation Control
3 Procurement of Regulation Services and Compensation
4 Market-Clearance Processing: PJM as an Example
5 Fast-Regulation Service – ERCOT as an Example
6 Summary
Chapter 5: Impact of Energy Storage on Cascade Mitigation in Multi-Energy Systems
Abstract
1 Introduction
2 Basic concepts and definitions
3 System considerations
4 Bi-level cascade-mitigation framework
5 Multi-energy cascade mitigation
6 Cascade mitigation in electric-power systems
7 Summary
Chapter 6: Incorporating Short-Term Stored Energy Resource into MISO Energy and Ancillary Service Market and Development of Performance-Based Regulation Payment
Abstract
1 Introduction
2 Market-Product Qualification and Market-Clearing Price on Short-term SER
3 Real-Time Dispatch
4 Day-Ahead and Reliability Assessment Commitment Dispatch
Chapter 7: Day-Ahead and Real-Time Markets Simulation Methodology on Hydro Storage
Abstract
1 Introduction
2 Hydro-System Model
3 Hydro-Unit Performance Curve
4 Value of Water in Storage Curve
5 Simulation Methodology
6 DA/RT Interleave Method
7 Implementation
8 Conclusions
Appendix
Chapter 8: Power-System Reliability Impact of Energy-Storage Integration with Intelligent-Operation Strategy
Abstract
1. Introduction
2. Energy-storage operation strategy in a distribution system
3. Energy-storage coordination
4. Reliability-evaluation framework
5. Case study
6. Conclusion
Chapter 9: Electric Vehicles as Energy Storage: V2G Capacity Estimation*
Abstract
1 Introduction
2 Availability and Nature of Intermittency of Solar-Photovoltaic and Wind-Energy Systems
3 EV Charge-Scheduling Algorithm
4 V2G Capacity-estimation Method
5 Case Study
Chapter 10: Decentralized Energy Storage in Residential Feeders with Photovoltaics
Abstract
1 PV generation in the power system
2 PV integration – benefits and challenges
3 Storage-strategy working principle
4 Energy management in houses with PV
5 Application of Decentralized Energy Storage
6 ESS battery lifetime with decentralized storage
7 Conclusion
Chapter 11: Operation of Independent Large-Scale Battery-Storage Systems in Energy and Reserve Markets*
Abstract
1 Introduction
2 Problem Formulation
3 Solution Methods
4 Numerical Results
5 Conclusions
Appendix
Index
No. of pages: 366
Language: English
Edition: 1
Published: October 18, 2014
Imprint: Academic Press
Hardback ISBN: 9780124104914
eBook ISBN: 9780124095434
PD
Pengwei Du
Dr. Pengwei Du is currently Senior Operation Engineer-Renewable Integration with the Electric Reliability Council of Texas (ERCOT). Prior to this, he was a senior research engineer with Pacific Northwest National Laboratory (PNNL) from 2008 to 2013. Dr. Du has over 10-year extensive experiences in simulation, modeling, protection and control of power systems, renewable energy integration, microgrid, and cyber security. He has been the Principal Investigator (PI) or Co-PI of more than $2.0 million in research grants on renewable integration, demand response and wide-area monitoring and control at PNNL. He has been major author for over 50 journal articles, conference papers, and technical reports. Dr. Du holds two U.S. patents and has two pending. He is Guest Editor-in-Chief for Special Issue on "Energy Storage Applications for Smart Grid” and Guest Editor for Special Issue on "Smart Grid Technologies and Development in China" in IEEE Transactions on Smart Grid. Dr. Du was also an adjunct professor at Washington State University in 2012. He graduated from Rensselaer Polytechnic Institute with a Ph.D. in Electrical Engineering.
Affiliations and expertise
Senior Operation Engineer-Renewable Integration, The Electric Reliability Council of Texas
NL
Ning Lu
Dr. Ning Lu has 20 years of experience in electric power engineering. From 2003 to 2012, Dr. Ning Lu was a senior research engineer with Pacific Northwest National Laboratory. She was a substation design engineer with the Shenyang Electric Power Survey and Design Institute from 1993 to 1998. She has conducted and managed research projects in modeling and analysis of power system load behaviors, wide area energy storage management systems, renewable integration, climate impact on power grids, and smart grid modeling and diagnosis. Dr. Lu is a senior member of the Institute of Electrical and Electronics Engineers. She has authored or co-authored more than 60 publications, including journal articles, conference proceedings, and technical reports.
Affiliations and expertise
Faculty, NC State University, Department of Electrical and Computer Engineering
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