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Hybrid Systems and Multi-energy Networks for the Future Energy Internet

  • Book

  • August 2020
  • Elsevier Science and Technology
  • ID: 4772259

Hybrid Systems and Multi-energy Networks for the Future Energy Internet provides the general concepts of hybrid systems and multi-energy networks, focusing on the integration of energy systems and the application of information technology for energy internet. The book gives a comprehensive presentation on the optimization of hybrid multi-energy systems, integrating renewable energy and fossil fuels. It presents case studies to support theoretical background, giving interdisciplinary prospects for the energy internet concept in power and energy. Covered topics make this book relevant to researchers and engineers in the energy field, engineers and researchers of renewable hybrid energy solutions, and upper level students.

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Table of Contents

1. IntroductionWorld energy, the significance of the distributed hybrid system and the prospect of the future Energy Internet2. Integrating advanced energy equipment in a hybrid multi-energy systemStatus of hybrid systems integrating renewable energy and fossil fuels for multi-energy generation3. Comprehensive optimization and dynamic match between supply and demandCase studies on the regulation, system dynamics and operation and co-generation of electric power4. Applying information technologies in a hybrid multi-energy systemApplication and potential of the artificial intelligence technology5. OutlooksOpportunities and challenges for the distributed hybrid system and the future "Energy Internet�

Authors

Yu Luo Fuzhou University, China. Yu Luo, Associate Professor, National Engineering Research Center of Chemical Fertilizer Catalyst, Fuzhou University. His research interests are distributed energy network systems, CHP systems, flame fuel cells and exergy analysis. Yixiang Shi Tsinghua University, China. Yixiang Shi, Associate Professor, Department of Energy and Power Engineering, Tsinghua University. His research interests are Reaction mechanism and multi-scale modeling of solid oxide cells, Solid oxide electrolyte direct carbon and direct flame fuel cells, Elevated temperature CO2 adsorption separation and electrochemical conversion. Ningsheng Cai Tsinghua Universit, China. Ningsheng Cai, Professor, Department of Energy and Power Engineering, Tsinghua University. His research interests are reaction kinetics, chemical engineering, electrocatalysis and duel cells.