Sustainable Hybrid Energy Systems

Offers the latest research and practical strategies on hybrid energy systems with multiple energy carriers as input and electricity carrier as output.

Autorentext

Jiuping Xu, Professor, Director of Institute of New Energy and Low-Carbon Technology, Sichuan University, China. He is Academician of International Academy for Systems and Cybernetic Sciences, Honorary Academician of Academy of Sciences of Moldova and, Academician of Mongolian National Academy of Sciences. He is President of International Society for Management Science and Engineering Management. He created the decision and technology innovation paradigm named the "Theory-Spectrum-Model-Group-Algorithm Cluster".
Fengjuan Wang, Postdoctoral researcher at the Business School of Sichuan University, China. Her research is focused on the integration of renewable energy, and holds doctorate degree in management science and engineering.

Klappentext

Discovering comprehensive approaches to build sustainable hybrid energy systems Hybridization is the eternal theme of human energy utilization. However, it has never been more important than it is now because of the urgency of promoting energy transition and achieving carbon neutrality. Therefore, exploring the design, combustion, operation, and policy challenges of sustainable hybrid energy systems becomes increasingly important. Sustainable Hybrid Energy Systems: Carbon Neutral Approaches, Modeling, and Case Studies provides a detailed explanation of these aspects. Dividing hybrid energy systems into three categories-co-located, co-combusted, and co-operated, this book emphasizes the deployment optimization, emission quota allocation, scheduling coordination, and renewable portfolio standards implementation of these systems. The results are essential tools for understanding the current and future of multi-input single-output hybrid energy systems. Sustainable Hybrid Energy Systems readers will also find:

• Clear logical framework that reveals the constitutes of hybrid energy systems.
• Systematic technical scheme for building an economic, environmental, flexible, and resilient future energy system.
• Extensive case studies from single power plant level, multiple power plant level, and grid level.

• Effective guidelines for wider application of the proposed carbon neutral approaches. Sustainable Hybrid Energy Systems is ideal for power engineers, electrical engineers, scientists in industry, and environmental researchers looking to understand these energy solutions. It will also provide collectible value for libraries.

  Inhalt
  INTRODUCTION

  INDUSTRIAL DECARBONIZATION ORIENTED DEPLOYMENT OF HYBRID WIND-SOLAR-STORAGE SYSTEM
  Background Review
  Main Issue Description
  Mathematical Modelling
  Case Study
  Comprehensive Discussion

  SUSTAINABLE OPERATION ORIENTED DEPLOYMENT OF HYBRID WIND-SOLAR-STORAGE SYSTEM
  Background Review
  Main Issue Description
  Mathematical Modelling
  Case Study
  Comprehensive Discussion

  DISASTER RESILIENCE ORIENTED DEPLOYMENT OF HYBRID WIND-SOLAR-STORAGE GAS SYSTEM
  Background Review
  Main Issue Description
  Mathematical Modelling
  Case Study
  Comprehensive Discussion

  BI-LEVEL EMISSION QUOTA ALLOCATION TOWARDS COAL AND BIOMASS CO-COMBUSTION
  Background Review
  Main Issue Description
  Mathematical Modelling
  Case Study
  Discussion

  BI-LEVEL EMISSION QUOTA ALLOCATION TOWARDS COAL AND MUNICIPAL SOLID WASTE CO-COMBUSTION
  Background Review
  Main Issue Description
  Modelling
  Case Study
  Comprehensive Discussion

  BI-LEVEL MULTI-OBJECTIVE EMISSION QUOTA ALLOCATION TOWARDS COAL AND SEWAGE CO-COMBUSTION
  Background Review
  Main Issue Description
  Modelling
  Case Study
  Comprehensive Discussion

  RELIABLE-ECONOMICAL SCHEDULING OF HYBRID SOLAR-HYDRO SYSTEM
  Background Review
  Key Problem Statement
  Modelling
  Case Study
  Discussion

  RELIABLE-ECONOMICAL EQUILIBRIUM BASED SHORT-TERM SCHEDULING OF HYBRID SOLAR-WIND-GAS SYSTEM
  Background Review
  Key Problem Statement
  Modelling
  Case Study
  Calculation Results and Analysis
  Comprehensive Discussion

  RELIABLE-ECONOMICAL-SOCIAL EQUILIBRIUM BASED SCHEDULING OF HYBRID SOLAR-WIND-HYDRO SYSTEM
  Background Review
  Key Problem Statement
  Modelling
  Case Study
  Results
  Discussion

  MULTI-OBJECTIVE RPS IMPLEMENTATION STRATEGY CONSIDERING BOTH POWER SUPPLIERS AND USERS
  Background Review
  Key Problem Statement
  Modelling
  Case Study
  Discussion

  OPTIMAL RPS IMPLEMENTATION STRATEGY CONSIDERING EQUITY AND ECONOMY EQUILIBRIUM
  Introduction
  Key Problem Statement
  Modelling
  Case Study
  Discussions

  OPTIMAL RPS IMPLEMENTATION STRATEGY CONSIDERING EMISSION TRADE AND GREEN CERTIFICATE TRADE
  Introduction
  Key Problem Statement
  Modelling
  Case Study
  Discussion

  FUTURE TRENDS