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Title
Power system flexibility : modeling, optimization and mechanism design / Ming Zhou, Zhaoyuan Wu, Gengyin Li.
ISBN
9789811990755 (electronic bk.)
9811990751 (electronic bk.)
9811990743
9789811990748
Publication Details
Singapore : Springer ; Beijing : Science Press, 2023.
Language
English
Description
1 online resource
Item Number
10.1007/978-981-19-9075-5 doi
Call Number
TK1001
Dewey Decimal Classification
621.31
Summary
This book provides a detailed description of the flexibility of the power system with high share of variable renewable generation, including power system flexibility modeling, flexibility-based economic dispatch, demand side flexibility response, large-scale distributed flexible resources aggregation and market design for enhancing the flexibility of the power system, etc. The book provides an appropriate blend of theoretical background and practical applications of the power system flexibility, which are developed as working algorithms, coded in MATLAB and GAMS environments. This feature strengthens the usefulness of the book for graduate students and practitioners. Students will gain an insightful understanding of the flexibility of the power system with high share of renewables integration, including: (1) the formulation of flexibility modeling and flexibility-based economic dispatch models, (2) the familiarization with efficient solution algorithms for such models, (3) insights into these problems through the detailed analysis of numerous illustrative examples and (4) market design approach for enhancing the flexibility of the power system. Hopefully, this book greatly benefits readers in the fields of energy economics and engineering.
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed March 8, 2023).
Series
Power systems, 1860-4676
Available in Other Form
Print version: 9789811990748
Introduction and Motivation
Power System Flexibility Modeling
Flexibility-based Economic Dispatch
Distributed Dispatch Approach in AC/DC Hybrid Systems With High Flexibility Requirement
The Optimal Dispatch Method Considering the Flexibility of Power Networks
Demand Side Flexibility
Large-Scale Distributed Flexible Resources Aggregation
Market Design for Enhancing the Flexibility of Power System
Future Research on Power System Flexibility.