Power system flexibility /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Lu, Zongxiang, Li, Haibo (Autor), Qiao, Ying (Autor), Le, Xie (Autor), Singh, Chanan (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London ; San Diego, CA : Academic Press, an imprint of Elsevier, [2023]
Temas:
Electric power systems.
R�eseaux �electriques (�Energie)
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Intro
  • Title page
  • Table of Contents
  • Copyright
  • List of figures
  • List of tables
  • Part I: Concepts and mathematics about flexibility
  • Chapter 1. Introduction to power system flexibility
  • Abstract
  • 1.1 Background of power system flexibility
  • 1.2 Brief history and cutting edges
  • References
  • Chapter 2. Mathematical basis of stochastic process and stochastic programming
  • Abstract
  • 2.1 Probability and stochastic process
  • 2.2 Criterion 2.1 Determination of stochastic process stationarity
  • 2.3 Criterion 2.2 Determination of joint stochastic process stationarity
  • 2.4 Stochastic programming theory
  • 2.5 Programming models and common algorithms
  • Chapter 3. Concepts and characteristics of power system flexibility
  • Abstract
  • 3.1 Introduction
  • 3.2 Definitions and Characteristics of flexibility
  • 3.3 Clarification with relative concepts
  • Chapter 4. Flexibility balancing and indices
  • Abstract
  • 4.1 Flexibility demand and supply balancing
  • 4.2 Quantitative evaluation indices of flexibility
  • Chapter 5. Flexibility assessment based on operational simulation
  • Abstract
  • 5.1 Comparison with sequential and nonsequential operational simulation
  • 5.2 Modeling flexibility resource in sequential/nonsequential simulation
  • 5.3 Algorithms of solving model
  • 5.4 Flexibility supply, demand, and margin assessment
  • Chapter 6. Flexibility assessment tool and case studies
  • Abstract
  • 6.1 Software for flexibility evaluation and planning in power systems
  • 6.2 Example analysis
  • 6.3 Analysis of the plans and allocation of flexibility resource in Jiangsu province
  • Part II: Incorporating flexibility into power system analysis
  • Chapter 7. Active power balance control based on flexibility theory
  • Abstract
  • 7.1 Sequential relationship between power electronics and synchronous machines in the frequency process
  • 7.2 Multilevel "unit-station-network" frequency-coordinated control system of renewable energy power systems
  • 7.3 Co-optimization model for multigenerator integrated inertia and primary frequency modulation parameters
  • 7.4 Optimized energy storage control for bidirectional coordination of frequency regulation capability and steady-state operation
  • Chapter 8. Reactive power balance control based on flexibility theory
  • Abstract
  • 8.1 Multimodal dynamic voltage support technology for renewable energy converter set
  • 8.2 Renewable energy hub swarm-controlled phase regulation technology
  • Chapter 9. Modeling flexibility in electric power market
  • Abstract
  • 9.1 Strategies and cost estimation for flexibility equipment retrofits
  • 9.2 Calculating additional operating costs of flexibility resources
  • 9.3 Flexibility retrofit cost recovery
  • References
  • Part III: The optimal planning of power system flexibility resources
  • Chapter 10. Introduction to power system flexibility planning
  • Abstract

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