Emerging transactive energy technology for future modern energy networks

Emerging transactive energy technology for future modern energy networks

Emerging Transactive Energy Technology for the Future Modern Energy Networks looks at the importance of transactive energy technology in modern multi-carrier energy networks, exploring modeling and optimization and analyzing the necessity of transactive energy technology for future modern energy net...

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Detalles Bibliográficos
Otros Autores: Daneshvar, Mohammadreza, author (author), Mohammadi-Ivatloo, Behnam, author, Zare, Kazem, author
Formato: Libro electrónico
Idioma:Inglés
Publicado: London, England : Academic Press [2023]
Materias:
Electric power systems > Technological innovations.
Hybrid power systems.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009835436506719
Tabla de Contenidos:
  • Front cover
  • Half title
  • Title
  • Copyright
  • Contents
  • Preface
  • Chapter 1 Overview of the grid modernization
  • 1.1 Introduction
  • 1.2 Decentralized energy production
  • 1.2.1 Dispersed energy generation
  • 1.3 The trend for 100 percent RERs
  • 1.4 Modern energy grids
  • 1.4.1 Definition
  • 1.4.2 Objectives
  • 1.4.3 Principles
  • 1.4.4 Opportunities and challenges
  • 1.5 Summary
  • 1.6 Questions
  • 1.7 Suggestions
  • 1.8 Future trends
  • References
  • Chapter 2 Analysis of basic requirements for switching from current energy grids to future modern multi-carrier energy networks
  • 2.1 Introduction
  • 2.2 Residential developments
  • 2.3 Industry revolution
  • 2.4 Network expansion
  • 2.4.1 Multi-carrier energy networks
  • 2.5 Summary
  • 2.6 Questions
  • 2.7 Suggestions
  • 2.8 Future trends
  • References
  • Chapter 3 Energy trading solution: The capable leverage for a renewable-dominant future
  • 3.1 Introduction
  • 3.2 Energy trading models in recent studies
  • 3.2.1 Operation studies
  • 3.2.2 Planning studies
  • 3.3 Renewable-dominant future energy networks
  • 3.4 Energy trading mechanisms
  • 3.4.1 Real-time energy trading mechanism
  • 3.4.2 Peer-to-peer energy trading mechanism
  • 3.4.3 Blockchain-based energy trading mechanism
  • 3.4.4 Edge computing-based energy trading mechanism
  • 3.4.5 Game theoretic-based energy trading mechanism
  • 3.5 Summary
  • 3.6 Questions
  • 3.7 Suggestions
  • 3.8 Future trends
  • References
  • Chapter 4 The role of peer-to-peer energy trading strategy in future modern energy networks
  • 4.1 Introduction
  • 4.2 Peer-to-Peer energy trading applications
  • 4.3 Peer-to-Peer energy trading market
  • 4.4 Peer-to-Peer energy attributes
  • 4.4.1 P2P strengths
  • 4.4.2 P2P weaknesses
  • 4.4.3 P2P opportunities
  • 4.4.4 P2P threats
  • 4.5 Summary
  • 4.6 Questions
  • 4.7 Suggestions
  • 4.8 Future trends
  • References.
  • Chapter 5 Modernized P2P energy trading market model and platform for net-zero carbon energy networks
  • 5.1 Introduction
  • 5.2 Peer-to-Peer energy trading model
  • 5.3 Peer-to-Peer energy trading platform
  • 5.4 Summary
  • 5.5 Questions
  • 5.6 Suggestions
  • 5.7 Future trends
  • References
  • Chapter 6 New emerging transactive energy technology in modernizing future hybrid energy networks
  • 6.1 Introduction
  • 6.2 TE definition
  • 6.3 TE framework
  • 6.4 TE principles
  • 6.5 TE strategies
  • 6.6 TE role in grid modernization
  • 6.7 Summary
  • 6.8 Questions
  • 6.9 Suggestions
  • 6.10 Future trends
  • References
  • Chapter 7 Applications of transactive energy technology in the multi-carrier energy network modernization
  • 7.1 Introduction
  • 7.2 TE application in the operation of energy networks
  • 7.3 TE application in consumer-side
  • 7.4 TE application in energy trading strategies
  • 7.5 TE application in multi-energy systems
  • 7.6 Real-world implementations of TE systems
  • 7.7 Summary
  • 7.8 Questions
  • 7.9 Suggestions
  • 7.10 Future trends
  • References
  • Chapter 8 Optimizing and modeling the transactive energy technology in modern multi-carrier energy networks
  • 8.1 Introduction
  • 8.2 Problem formulation
  • 8.3 Transactive energy model
  • 8.4 Simulation results
  • 8.5 Summary
  • 8.6 Questions
  • 8.7 Suggestions
  • 8.8 Future trends
  • References
  • Chapter 9 A case study in the hybrid energy network with 100 percent renewable energy resources and future directions
  • 9.1 Introduction
  • 9.2 Problem formulation
  • 9.3 Simulation results
  • 9.4 Summary
  • 9.5 Questions
  • 9.6 Suggestions
  • 9.7 Future trends
  • References
  • Chapter 10 An application of GAMS in simulating hybrid energy networks optimization problems
  • 10.1 Introduction
  • 10.2 What is GAMS?
  • 10.3 Features of GAMS
  • 10.4 How can I install GAMS on my PC?.
  • 10.5 Some important points before working with GAMS
  • 10.6 Terms, symbols, and reserved words in GAMS
  • 10.7 Common mathematical functions in GAMS
  • 10.7.1 Abs
  • 10.7.2 Exp
  • 10.7.3 Log, log10
  • 10.7.4 Max, Min
  • 10.7.5 Prod
  • 10.7.6 Round
  • 10.7.7 Smax, Smin
  • 10.7.8 Sqr
  • 10.7.9 Sqrt
  • 10.7.10 Sum
  • 10.7.11 Other mathematical functions in GAMS
  • 10.8 GAMS commands
  • 10.8.1 Set
  • 10.8.2 Data
  • 10.8.3 Variable
  • 10.8.4 Eq
  • 10.8.5 Model
  • 10.8.6 Solve and display
  • 10.9 Some special orders in GAMS
  • 10.9.1 Loop statement
  • 10.9.2 If-Elseif-Else statement
  • 10.9.3 While statement
  • 10.9.4 For statement
  • 10.9.5 Repeat statement
  • 10.9.6 ORD operator
  • 10.9.7 CARD operator
  • 10.10 Summary
  • 10.11 Questions
  • 10.12 Suggestions
  • 10.13 Future trends
  • References
  • Index
  • Back cover.

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