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Whole energy systems = bridging the ...

Vahidinasab, Vahid.

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Whole energy systems = bridging the gap via vector-coupling technologies /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Whole energy systems/ edited by Vahid Vahidinasab, Behnam Mohammadi-Ivatloo.
Reminder of title:	bridging the gap via vector-coupling technologies /
other author:	Vahidinasab, Vahid.
Published:	Cham :Springer International Publishing : : 2022.,
Description:	xiii, 345 p. :ill., digital ;24 cm.
[NT 15003449]:	Concept, Definition, and Challenges of Vector Coupling in Whole Energy Systems -- Power-to-X for Renewable Based Hybrid Energy Systems -- Whole Energy Systems Evaluation: A Methodological Framework and Case Study -- Targeting and Design multi-generation system through Total site integration approach -- Investigating the Effective Methods in Improving the Resilience of Electricity and Gas Systems -- Optimal Placement of Combined Heat and Power (CHP) Systems Considering the Cost of Environmental Pollutants -- Optimal Coalition Operation of Interconnected Hybrid Energy Systems Containing Local Energy Conversion Technologies, Renewable Energy Resources, and Energy Storage Systems -- Optimal Co-Generation of Electric and Heatenergy systems considering Heat Energy StorageSystems and CHP units -- Investigating the Role of Flexibility Options in Multi-Vector Energy Systems -- Impact of Demand Response Programs on the Operation of Electricity and Gas Systems -- Two-stage stochastic market-clearing of energy and reserve in the presence of coupled fuel cell-based hydrogen storage system with renewable resources -- Polygeneration Systems in fossil fuel power plants: The role of Power-to-X in CO2 mitigation -- The Role of Distributed Multi-Vector Energy Assets in Economic Decarbonisation: Early Findings of a UK Demonstrator.
Contained By:	Springer Nature eBook
Subject:	Power resources. -
Online resource:	https://doi.org/10.1007/978-3-030-87653-1
ISBN:	9783030876531

Whole energy systems = bridging the gap via vector-coupling technologies /
Whole energy systemsbridging the gap via vector-coupling technologies /[electronic resource] :edited by Vahid Vahidinasab, Behnam Mohammadi-Ivatloo. - Cham :Springer International Publishing :2022. - xiii, 345 p. :ill., digital ;24 cm. - Power systems,1860-4676. - Power systems..

Concept, Definition, and Challenges of Vector Coupling in Whole Energy Systems -- Power-to-X for Renewable Based Hybrid Energy Systems -- Whole Energy Systems Evaluation: A Methodological Framework and Case Study -- Targeting and Design multi-generation system through Total site integration approach -- Investigating the Effective Methods in Improving the Resilience of Electricity and Gas Systems -- Optimal Placement of Combined Heat and Power (CHP) Systems Considering the Cost of Environmental Pollutants -- Optimal Coalition Operation of Interconnected Hybrid Energy Systems Containing Local Energy Conversion Technologies, Renewable Energy Resources, and Energy Storage Systems -- Optimal Co-Generation of Electric and Heatenergy systems considering Heat Energy StorageSystems and CHP units -- Investigating the Role of Flexibility Options in Multi-Vector Energy Systems -- Impact of Demand Response Programs on the Operation of Electricity and Gas Systems -- Two-stage stochastic market-clearing of energy and reserve in the presence of coupled fuel cell-based hydrogen storage system with renewable resources -- Polygeneration Systems in fossil fuel power plants: The role of Power-to-X in CO2 mitigation -- The Role of Distributed Multi-Vector Energy Assets in Economic Decarbonisation: Early Findings of a UK Demonstrator.

This book provides a thorough overview of the concept of whole energy systems and the role of vector-coupling technologies (VCTs) in meeting long-term decarbonization strategies. It is the first comprehensive reference that provides basic definitions and fundamental, applicable approaches to whole energy systems analysis and vector-coupling technologies in a multidisciplinary way. Whole Energy Systems presents practical methods with evidence from applications to real-world and simulated coupled energy systems. Sample analytical examples are provided to aid in the understanding of the presented methods. The book will provide researchers and industry stakeholders focused on whole energy systems, as well researchers and developers from different branches of engineering, energy, economics, and operation research, with state-of-the-art coverage and the latest developments in the field. Looks at electricity interactions across systems, including gas, heating and cooling, hydrogen, transport, and water networks; Examines challenges, opportunities, strengths, and threats of the whole system approach to energy; Thoroughly covers whole energy systems planning and operation.

ISBN: 9783030876531

Standard No.: 10.1007/978-3-030-87653-1doiSubjects--Topical Terms:

539096
Power resources.

LC Class. No.: TJ163.2 / .W56 2022

Dewey Class. No.: 621.042

Whole energy systems = bridging the gap via vector-coupling technologies /
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520 $a This book provides a thorough overview of the concept of whole energy systems and the role of vector-coupling technologies (VCTs) in meeting long-term decarbonization strategies. It is the first comprehensive reference that provides basic definitions and fundamental, applicable approaches to whole energy systems analysis and vector-coupling technologies in a multidisciplinary way. Whole Energy Systems presents practical methods with evidence from applications to real-world and simulated coupled energy systems. Sample analytical examples are provided to aid in the understanding of the presented methods. The book will provide researchers and industry stakeholders focused on whole energy systems, as well researchers and developers from different branches of engineering, energy, economics, and operation research, with state-of-the-art coverage and the latest developments in the field. Looks at electricity interactions across systems, including gas, heating and cooling, hydrogen, transport, and water networks; Examines challenges, opportunities, strengths, and threats of the whole system approach to energy; Thoroughly covers whole energy systems planning and operation.
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