Cover image for Energy Storage for Power System Planning and Operation

Energy Storage for Power System Planning and Operation

Author Zechun Hu
Release Date: 2020/04/01
ISBN: 9781119189084
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An authoritative guide to large-scale energy storage technologies and applications for power system planning and operation

To reduce the dependence on fossil energy, renewable energy generation (represented by wind power and photovoltaic power generation) is a growing field worldwide. Energy Storage for Power System Planning and Operation offers an authoritative introduction to the rapidly evolving field of energy storage systems. Written by a noted expert on the topic, the book outlines a valuable framework for understanding the existing and most recent advances in technologies for integrating energy storage applications with power systems.

Filled with full-color illustrations, the book reviews the state-of-the-art of energy storage systems and includes illustrative system models and simulations. The author explores the various techniques that can be employed for energy storage that is compatible with renewable energy generation. Designed as a practical resource, the book examines in detail the aspects of system optimization, planning, and dispatch. This important book,

  • Provides an introduction to the systematically different energy storage techniques with deployment potential in power systems
  • Models various energy storage systems for mathematical formulation and simulations
  • Contains a review of the techniques for integrating and operating energy storage with renewable energy generation
  • Analyses how to optimize power systems with energy storage, at both the transmission and distribution system levels
  • Shows how to optimize planning, siting, and sizing of energy storage for a range of purposes

Written for power system engineers and researchers, Energy Storage for Power System Planning and Operation introduces the application of large-scale energy storage for the optimal operation and planning of power systems.

Table of Contents

  1. Cover
  2. Preface
  3. Acknowledgements
  4. Abbreviation List
  5. 1 Introduction
    1. 1.1 Evolution of Power System and Demand of Energy Storage
    2. 1.2 Energy Storage Technologies and Their Applications in Power Systems
    3. 1.3 Chapter Structure
    4. 1.4 Notes to Readers
    5. References
  6. 2 Modeling of Energy Storage Systems for Power System Operation and Planning
    1. 2.1 Introduction
    2. 2.2 Pumped Hydroelectric Storage System
    3. 2.3 Battery Energy Storage System
    4. 2.4 Compressed Air Energy Storage System
    5. 2.5 Simplified Steady‐State Model of a Generic Energy Storage System
    6. 2.6 Conclusion
    7. References
  7. 3 Day‐Ahead Schedule and Bid for a Renewable Energy Generation and Energy Storage System Union
    1. 3.1 Introduction
    2. 3.2 Basic Model for Day‐Ahead Schedule of a REG–ESS Union
    3. 3.3 Stochastic Optimization for Day‐Ahead Coordination
    4. 3.4 Integrated Bidding Strategies for a REG–ESS Union
    5. 3.5 Conclusion and Discussion
    6. References
  8. 4 Refined Bidding and Operating Strategy for a Renewable Energy Generation and Energy Storage System Union
    1. 4.1 Introduction
    2. 4.2 Real‐Time Operation with Linear Decision Rules
    3. 4.3 Optimal Offering Strategy with Linear Decision Rules
    4. 4.4 Electricity Market Time Frame and Rules with Intraday Market
    5. 4.5 Rolling Optimization Framework and Mathematical Formulations Considering Intraday Markets
    6. 4.6 Conclusion and Discussion
    7. References
  9. 5 Unit Commitment with Energy Storage System
    1. 5.1 Introduction
    2. 5.2 Energy Storage System Model for SCUC
    3. 5.3 Deterministic SCUC with Energy Storage System
    4. 5.4 Stochastic and Robust SCUC with Energy Storage System and Wind Power
    5. 5.5 Conclusion and Discussion
    6. References
  10. 6 Optimal Power Flow with Energy Storage System
    1. 6.1 Introduction
    2. 6.2 Optimal Power Flow Formulation with Energy Storage System
    3. 6.3 Interior Point Method to Solve the Multi‐Period OPF Problem
    4. 6.4 Semidefinite Programming for the OPF Problem
    5. 6.5 Simulation and Comparison
    6. 6.6 Conclusion and Discussion
    7. References
  11. 7 Power System Secondary Frequency Control with Fast Response Energy Storage System
    1. 7.1 Introduction
    2. 7.2 Simulation of SFC with the Participation of Energy Storage System
    3. 7.3 Capacity Requirement for Secondary Frequency Control with Energy Storage System
    4. 7.4 Control Strategies of Secondary Frequency Control with Energy Storage System
    5. 7.5 Extending to Multi‐area Power System
    6. 7.6 Conclusion and Discussion
    7. References
  12. 8 Integration of Large‐Scale Energy Storage System into the Transmission Network
    1. 8.1 Introduction
    2. 8.2 Costs and Benefits of Investing ESS in a Transmission Network
    3. 8.3 Transmission Expansion Planning Considering Energy Storage System and Active Power Loss
    4. 8.4 Transmission Expansion Planning Considering Daily Operation of ESS
    5. 8.5 Conclusion and Discussion
    6. References
  13. 9 Optimal Planning of the Distributed Energy Storage System
    1. 9.1 Introduction
    2. 9.2 Benefits from Investing in DESS
    3. 9.3 Mathematical Model for Planning Distributed Energy Storage Systems
    4. 9.4 Solution Methods for the Optimal Distributed Energy Storage System Planning Problem
    5. 9.5 Distribution Network Expansion Planning with Distributed Energy Storage System
    6. 9.6 Conclusion and Discussion
    7. References
  14. Index
  15. End User License Agreement
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