Reprint

Energy Systems Analysis and Modelling towards Decarbonisation

Edited by
April 2022
240 pages
  • ISBN978-3-0365-3885-3 (Hardback)
  • ISBN978-3-0365-3886-0 (PDF)

This is a Reprint of the Special Issue Energy Systems Analysis and Modelling towards Decarbonisation that was published in

Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary

The Paris Agreement establishes a process to combine Nationally Determined Contributions with the long-term goal of limiting global warming to well below 2 °C or even to 1.5 °C. Responding to this challenge, EU and non-EU countries are preparing national and regional low-emission strategies outlining clean energy-transition pathways. The aim of this book is to provide rigorous quantitative assessment of the challenges, impacts and opportunities induced by ambitious low-emission pathways. It aims to explore how deep emission reductions can be achieved in all energy supply and demand sectors, exploring the interplay between mitigation options, including energy efficiency, renewable energy uptake and electrification, for decarbonising inflexible end-uses such as mobility and heating. The high expansion of renewable energy poses high technical and economic challenges regarding system configuration and market organisation, requiring the development of new options such as batteries, prosumers, grid expansion, chemical storage through power-to-X and new tariff setting methods. The uptake of disruptive mitigation options (hydrogen, CCUS, clean e-fuels) as well as carbon dioxide removal (BECCS, direct air capture, etc.) may also be required in the case of net-zero emission targets, but raises market, regulatory and financial challenges. This book assesses low-emission strategies at the national and global level and their implications for energy-system development, technology uptake, energy-system costs and the socioeconomic and industrial impacts of low-emission transitions.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
GEM-E3-FIT; low-carbon R&D; innovation-induced growth; endogenous technology progress; unilateral climate policy; GEM-E3-FIT; carbon leakage; industrial relocation; border carbon adjustment; electric vehicles; electricity recharging infrastructure; business models; equilibrium programming; Greek EV mobility 2030; private investments in infrastructure; combined gas-steam cycles; efficiency; heat exchange in Heat Recovery Steam Generators (HRSG); economic analysis; cost management; managerial decisions; fortune 500; carbon disclosure; financial performance; COVID-19; economic recovery; stimulus packages; climate scenarios; integrated assessment modelling; integrated energy system; scheduling; energy trade; smart contract; BECCS; CCS; biomass; climate neutrality; greenhouse gas; emission; abatement cost; EU climate/energy policy; Fit for 55; European Union; Green Deal; burden sharing; effort sharing regulation; emissions trading system; energy system analysis; TIMES PanEU; NEWAGE; agent-based modelling; low carbon electricity system; investment decisions; heterogeneous agents; value factor of wind; n/a

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