Coordinated operation and planning of modern heat and electricity incorporated networks / edited by Mohammadreza Daneshvar, Behnam Mohammadi-Ivatloo, Kazem Zare.

Contributor(s): Daneshvar, Mohammadreza [editor.] | Mohammadi-Ivatloo, Behnam [editor.] | Zare, Kazem [editor.]
Language: English Series: IEEE Press series on power and energy systems: 117.Publisher: Hoboken, New Jersey : John Wiley & Sons, Inc., ©2023Description: 1 online resource (xxiv, 512 pages) : illustrations (chiefly color)Content type: text Media type: computer Carrier type: online resourceISBN: 9781119862123; 9781119862154; 1119862159; 1119862132; 9781119862161; 1119862167; 9781119862130Subject(s): Electric power systems -- Planning | Heating from central stationsGenre/Form: Electronic books.Additional physical formats: Print version:: Coordinated operation and planning of modern heat and electricity incorporated networksDDC classification: 621.31 LOC classification: TK1005 | .C69 2023Online resources: Full text available at Wiley Online Library Click here to view
Contents:
Table of Contents Chapter 1 - Overview of Modern Energy Networks Chapter 2 - An Overview of the Transition from One-Dimensional Energy Networks to Multi-carrier Energy Grids Chapter 3 - Overview of Modern Multi-Dimension Energy Networks Chapter 4 - Modern Smart Multi-Dimensional Infrastructure Energy Systems – State of the Arts Chapter 5 - Overview of the Optimal Operation of Heat and Electricity Incorporated Networks Chapter 6 - Modern Heat and Electricity Incorporated Networks Targeted by Coordinated Cyberattacks for Congestion and Cascading Outages Chapter 7 - Cooperative Unmanned Aerial Vehicles for Monitoring and Maintenance of Heat and Electricity Incorporated Networks: A Learning-based Approach Chapter 8 - Coordinated Operation and Planning of the Modern Heat and Electricity Incorporated Networks Chapter 9 - Optimal Coordinated Operation of Heat and Electricity Incorporated Networks Chapter 10 - Optimal Energy Management of a Demand Response Integrated Combined-Heat-and-Electrical Microgrid Chapter 11 - Optimal Operation of Residential Heating Systems in Electricity Markets Leveraging Joint Power-Heat Flexibility Chapter 12 - Hybrid Energy Storage Systems for Optimal Operation of the Heat and Electricity Incorporated Networks Chapter 13 - Operational Coordination to Boost Efficiency of Complex Heat and Electricity Microgrids Chapter 14 - Techno-Economic Analysis of Hydrogen Technologies, Waste Converter, and Demand Response in Coordinated Operation of Heat and Electricity Systems Chapter 15 - Optimal Operational Planning of Heat and Electricity Systems Considering Integration of Smart Buildings Chapter 16 - Coordinated Planning Assessment of Modern Heat and Electricity Incorporated Networks Chapter 17 - Coordinated Planning of Thermal and Electrical Networks Chapter 18 - Hybrid Energy Storage Systems for Optimal Planning of the Heat and Electricity Incorporated Networks
Summary: "Electric power systems (EPSs) and district heating networks (DHNs) have experienced significant growth in terms of energy demand, smart systems, and physical infrastructures in recent years. In this area, emerging new hybrid energy systems along with the substantial development in the energy conversion technologies declare this fact that modern grids need to be an integration of multi-carrier energy networks (MCENs). In this context, EPSs and DHNs play a pivotal role in meeting the electrical and heating energy demand that can be operated in a collaborative manner to make the modern structure of the energy network more efficient, reliable, resilient, and stable. Therefore, coordinated operation and planning of the EPSs and DHNs are necessary for switching from the traditional independent systems to the modern interdependent structures."-- Provided by publisher.
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EBOOK EBOOK COLLEGE LIBRARY
COLLEGE LIBRARY
621.31 C7888 2023 (Browse shelf) Available CL-53736
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Includes bibliographical references and index.

Table of Contents
Chapter 1 - Overview of Modern Energy Networks

Chapter 2 - An Overview of the Transition from One-Dimensional Energy Networks to Multi-carrier Energy Grids

Chapter 3 - Overview of Modern Multi-Dimension Energy Networks

Chapter 4 - Modern Smart Multi-Dimensional Infrastructure Energy Systems – State of the Arts

Chapter 5 - Overview of the Optimal Operation of Heat and Electricity Incorporated Networks

Chapter 6 - Modern Heat and Electricity Incorporated Networks Targeted by Coordinated Cyberattacks for Congestion and Cascading Outages

Chapter 7 - Cooperative Unmanned Aerial Vehicles for Monitoring and Maintenance of Heat and Electricity Incorporated Networks: A Learning-based Approach

Chapter 8 - Coordinated Operation and Planning of the Modern Heat and Electricity Incorporated Networks

Chapter 9 - Optimal Coordinated Operation of Heat and Electricity Incorporated Networks

Chapter 10 - Optimal Energy Management of a Demand Response Integrated Combined-Heat-and-Electrical Microgrid

Chapter 11 - Optimal Operation of Residential Heating Systems in Electricity Markets Leveraging Joint Power-Heat Flexibility

Chapter 12 - Hybrid Energy Storage Systems for Optimal Operation of the Heat and Electricity Incorporated Networks

Chapter 13 - Operational Coordination to Boost Efficiency of Complex Heat and Electricity Microgrids

Chapter 14 - Techno-Economic Analysis of Hydrogen Technologies, Waste Converter, and Demand Response in Coordinated Operation of Heat and Electricity Systems

Chapter 15 - Optimal Operational Planning of Heat and Electricity Systems Considering Integration of Smart Buildings

Chapter 16 - Coordinated Planning Assessment of Modern Heat and Electricity Incorporated Networks

Chapter 17 - Coordinated Planning of Thermal and Electrical Networks

Chapter 18 - Hybrid Energy Storage Systems for Optimal Planning of the Heat and Electricity Incorporated Networks

"Electric power systems (EPSs) and district heating networks (DHNs) have experienced significant growth in terms of energy demand, smart systems, and physical infrastructures in recent years. In this area, emerging new hybrid energy systems along with the substantial development in the energy conversion technologies declare this fact that modern grids need to be an integration of multi-carrier energy networks (MCENs). In this context, EPSs and DHNs play a pivotal role in meeting the electrical and heating energy demand that can be operated in a collaborative manner to make the modern structure of the energy network more efficient, reliable, resilient, and stable. Therefore, coordinated operation and planning of the EPSs and DHNs are necessary for switching from the traditional independent systems to the modern interdependent structures."-- Provided by publisher.

About the Author
Mohammadreza Daneshvar is a Researcher in the Department of Electrical and Computer Engineering at the University of Tabriz, Iran.

Behnam Mohammadi-Ivatloo, PhD, is a Professor in the Department of Electrical and Computer Engineering at the University of Tabriz, Iran.

Kazem Zare, PhD, is a Professor in the Department of Electrical and Computer Engineering at the University of Tabriz, Iran.

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