Modelling the Renewable Transition : scenarios and pathways for
a decarbonized future using pymedeas, a new open-source energy
systems model

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Modelling the Renewable Transition : scenarios and pathways for a decarbonized future using ...

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J 2020

Modelling the Renewable Transition : scenarios and pathways for a decarbonized future using pymedeas, a new open-source energy systems model

SOLÉ, Jordi; Roger SAMSÓ; Emilio GARCÍA-LADONA; Antonio GARCIA-OLIVARES; Joaquim BALLABRERA et. al.

Basic information

Original name

Modelling the Renewable Transition : scenarios and pathways for a decarbonized future using pymedeas, a new open-source energy systems model

Authors

SOLÉ, Jordi; Roger SAMSÓ; Emilio GARCÍA-LADONA; Antonio GARCIA-OLIVARES; Joaquim BALLABRERA; Teresa MADURELL; A. TURIEL; Oleg OSYCHENCO; David ÁLVAREZ-ANTELO; Ugo BARDI; Martin BAUMANN; Kat BUCHMANN; Iñigo CAPELLÁN-PÉREZ; Martin ČERNÝ; Óscar CARPINTERO; Ignacio DE BLAS; Carlos DE CASTRO CARRANZA; Jean-David DE LATHOUWER; Carmen DUCE; Lukas EGGLER; Kuishuang FENG; Noelia FERRERAS-ALONSO; Fernando A. FRECHOSO ESCUDERO; Klaus HUBACEK; Aled JONES; Romana KACLÍKOVÁ; Christian KERSCHNER; Christian KIMMICH; Luis Fernando LOBEJÓN; Pedro L. LOMAS; Gianluca MARTELLONI; Margarita MEDIAVILLA; Luis J. MIGUEL; Davide NATALINI; Jaime NIETO; Angel NIKOLAEV; Gonzalo PARRADO-HERNANDO; Stavroula PAPAGIANNI; Ilaria PERISSI; Christoph PLOINER; Lulin RADULOV; Paula RODRIGO; Laixiang SUN; Myrto THEOFILIDI; J. M. ENRÍQUEZ and Sara FALSINI

Edition

Renewable and Sustainable Energy Reviews, Oxford, Elsevier, 2020, 1364-0321

Other information

Language

English

Type of outcome

Article in a journal

Country of publisher

United Kingdom of Great Britain and Northern Ireland

Confidentiality degree

is not subject to a state or trade secret

References:

URL

Organization

Fakulta sociálních studií – Repository – Repository

UT WoS

000565626100002

EID Scopus

2-s2.0-85088377694

Keywords in English

Biophysical constraints; Climate damage; Energy efficiency; GHG emissions; Raw materials; Energy costs

Links

691287, interní kód Repo.

Changed: 10/3/2021 01:57, RNDr. Daniel Jakubík

Abstract

V originále

This paper reviews different approaches to modelling the energy transition towards a zero carbon economy. It identifies a number of limitations in current approaches such as a lack of consideration of out-of-equilibrium situations (like an energy transition) and non-linear feedbacks. To tackle those issues, the new open source integrated assessment model pymedeas is introduced, which allows the exploration of the design and planning of appropriate strategies and policies for decarbonizing the energy sector at World and EU level. The main novelty of the new open-source model is that it addresses the energy transition by considering biophysical limits, availability of raw materials, and climate change impacts. This paper showcases the model capabilities through several simulation experiments to explore alternative pathways for the renewable transition. In the selected scenarios of this work scenarios of this work, future shortage of 1 fossil fuels is found to be the most influential factor of the simulations system evolution. Changes in efficiency and climate change damages are also important determinants influencing model outcomes.

Files attached

https://is.muni.cz/publication/1672126/1-s2.0-S1364032120303968-main.pdf

Request the author's version of the file

Cite

@article{39163,
   author = {Solé, Jordi and Samsó, Roger and GarcíaandLadona, Emilio and GarciaandOlivares, Antonio and Ballabrera, Joaquim and Madurell, Teresa and Turiel, A. and Osychenco, Oleg and ÁlvarezandAntelo, David and Bardi, Ugo and Baumann, Martin and Buchmann, Kat and CapellánandPérez, Iñigo and Černý, Martin and Carpintero, Óscar and De Blas, Ignacio and De Castro Carranza, Carlos and De Lathouwer, JeanandDavid and Duce, Carmen and Eggler, Lukas and Feng, Kuishuang and FerrerasandAlonso, Noelia and Frechoso Escudero, Fernando A. and Hubacek, Klaus and Jones, Aled and Kaclíková, Romana and Kerschner, Christian and Kimmich, Christian and Lobejón, Luis Fernando and Lomas, Pedro L. and Martelloni, Gianluca and Mediavilla, Margarita and Miguel, Luis J. and Natalini, Davide and Nieto, Jaime and Nikolaev, Angel and ParradoandHernando, Gonzalo and Papagianni, Stavroula and Perissi, Ilaria and Ploiner, Christoph and Radulov, Lulin and Rodrigo, Paula and Sun, Laixiang and Theofilidi, Myrto and Enríquez, J. M. and Falsini, Sara},
   article_location = {Oxford},
   article_number = {October},
   keywords = {Biophysical constraints; Climate damage; Energy efficiency; GHG emissions; Raw materials; Energy costs},
   language = {eng},
   issn = {1364-0321},
   journal = {Renewable and Sustainable Energy Reviews},
   title = {Modelling the Renewable Transition : scenarios and pathways for a decarbonized future using pymedeas, a new open-source energy systems model},
   url = {https://www.sciencedirect.com/science/article/pii/S1364032120303968},
   volume = {132},
   year = {2020}
}

TY  - JOUR
ID  - 39163
AU  - Solé, Jordi - Samsó, Roger - García-Ladona, Emilio - Garcia-Olivares, Antonio - Ballabrera, Joaquim - Madurell, Teresa - Turiel, A. - Osychenco, Oleg - Álvarez-Antelo, David - Bardi, Ugo - Baumann, Martin - Buchmann, Kat - Capellán-Pérez, Iñigo - Černý, Martin - Carpintero, Óscar - De Blas, Ignacio - De Castro Carranza, Carlos - De Lathouwer, Jean-David - Duce, Carmen - Eggler, Lukas - Feng, Kuishuang - Ferreras-Alonso, Noelia - Frechoso Escudero, Fernando A. - Hubacek, Klaus - Jones, Aled - Kaclíková, Romana - Kerschner, Christian - Kimmich, Christian - Lobejón, Luis Fernando - Lomas, Pedro L. - Martelloni, Gianluca - Mediavilla, Margarita - Miguel, Luis J. - Natalini, Davide - Nieto, Jaime - Nikolaev, Angel - Parrado-Hernando, Gonzalo - Papagianni, Stavroula - Perissi, Ilaria - Ploiner, Christoph - Radulov, Lulin - Rodrigo, Paula - Sun, Laixiang - Theofilidi, Myrto - Enríquez, J. M. - Falsini, Sara
PY  - 2020
TI  - Modelling the Renewable Transition : scenarios and pathways for a decarbonized future using pymedeas, a new open-source energy systems model
JF  - Renewable and Sustainable Energy Reviews
VL  - 132
IS  - October
SP  - 1-13
EP  - 1-13
PB  - Elsevier
SN  - 1364-0321
KW  - Biophysical constraints
KW  - Climate damage
KW  - Energy efficiency
KW  - GHG emissions
KW  - Raw materials
KW  - Energy costs
UR  - https://www.sciencedirect.com/science/article/pii/S1364032120303968
N2  - This paper reviews different approaches to modelling the energy transition towards a zero carbon economy. It identifies a number of limitations in current approaches such as a lack of consideration of out-of-equilibrium situations (like an energy transition) and non-linear feedbacks. To tackle those issues, the new open source integrated assessment model pymedeas is introduced, which allows the exploration of the design and planning of appropriate strategies and policies for decarbonizing the energy sector at World and EU level. The main novelty of the new open-source model is that it addresses the energy transition by considering biophysical limits, availability of raw materials, and climate change impacts. This paper showcases the model capabilities through several simulation experiments to explore alternative pathways for the renewable transition. In the selected scenarios of this work scenarios of this work, future shortage of 1 fossil fuels is found to be the most influential factor of the simulations system evolution. Changes in efficiency and climate change damages are also important determinants influencing model outcomes.
ER  -