Description
The Energy Internet
An Open Energy Platform to Transform Legacy Power Systems into Open Innovation and Global Economic Engines
Woodhead Publishing Series in Energy Series
Coordinators: Su Wencong, Huang Alex
Language: EnglishSubjects for The Energy Internet:
Keywords
Concept and characteristics key technologies demonstration project; DC distribution; Distributed energy resources; Electric system; Energy Internet; Governance; Home energy management systems; Medium-voltage dc; Microgrid; Power router; Regulatory impacts; Renewable energy; Resiliency; Rural grids; Smart grid; Smart grids; Transactive energy
398 p. · 15x22.8 cm · Paperback
Description
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The Energy Internet: An Open Energy Platform to Transform Legacy Power Systems into Open Innovation and Global Economic Engines is an innovative concept that changes the way people generate, distribute and consume electrical energy. With the potential to transform the infrastructure of the electric grid, the book challenges existing power systems, presenting innovative and pioneering theories and technologies that will challenge existing norms on generation and consumption. Researchers, academics, engineers, consultants and policymakers will gain a thorough understanding of the Energy Internet that includes a thorough dissemination of case studies from the USA, China, Japan, Germany and the U.K.
The book's editors provide analysis of various enabling technologies and technical solutions, such as control theory, communication, and the social and economic aspects that are central to obtaining a clear appreciation of the potential of this complex infrastructure.
1. Centralized, decentralized, and distributed control for Energy Internet 2. Solid state transformers, the Energy Router and the Energy Internet 3. Energy Internet blockchain technology 4. Resilient community microgrids: governance and operational challenges 5. Electricity market reform 6. Medium-voltage DC power distribution technology 7. Transactive energy in future smart homes 8. Emerging data encryption methods applicable to Energy Internet 9. Enabling technologies and technical solutions for the Energy Internet: lessons learned and case studies from Pecan Street Inc. 10. How the Brooklyn microgrid and exergy are paving the way to next-gen energy markets 11. Energy Internet: an open energy platform to transform legacy power systems into open innovation and global economic engine 12. Energy Internet in China 13. Quantum Grid: A packet-based power approach 14. Smart rural grid pilot in Spain 15. Development of European Energy Internet and the role of Energy Union
Academics, researchers, engineers, consultants, policy makers, market regulators and system operators in the fields of energy management, power systems, power plants and smart grid engineering
Dr. Alex Huang is the Dula D. Cockrell Centennial Chair in Engineering at the Department of Electrical and Computer Engineering at UT Austin. Dr. Huang received the bachelor's degree in electrical engineering from Zhejiang University, China in 1983 and his M.S. degree from University of Electronic Science and Technology of China in 1986. He received his Ph.D. in electrical engineering from University of Cambridge, UK in 1992. Prior to joining UT Austin, Dr. Huang has been a faculty member at Virginia Tech (1994-2004) and NC State University (2004-2017). At NC State, Dr. Huang has established a number of internationally renowned public-private partnerships such as the NSF FREEDM ERC in 2008, NCSU's Advanced Transportation Energy Center (ATEC) in 2008 and the DOE PowerAmerica Institute in 2014. Dr. Huang is a world-renowned expert of power semiconductor devices, power electronics, smart grid and renewable energy system. He has published more than 550 papers in journals
- Presents the first complete resource on the innovative concept of the Energy Internet
- Provides a clear analysis of the architecture of the Energy Internet to ensure an understanding of the technologies behind generating, distributing and consuming electricity in this way
- Includes a variety of global case studies of real-world implementation and pilot projects to thoroughly demonstrate the theoretical, technological and economic considerations