Your search keyword '"Lukas Eggler"' showing total 2 results

1. Cross-Validation of the MEDEAS Energy-Economy- Environment Model with the Integrated MARKAL-EFOM System (TIMES) and the Long-Range Energy Alternatives Planning System (LEAP)

Author

Martin Baumann, Angel Nikolaev, Jordi Solé, Davide Natalini, Ilaria Perissi, Roger Samsó, Aled Jones, Lukas Eggler, Gianluca Martelloni, and Ugo Bardi

Subjects

energy model, Energy industries, Operations research, Indústries energètiques, Computer science, 020209 energy, Geography, Planning and Development, decarbonization pathways, lcsh:TJ807-830, lcsh:Renewable energy sources, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, Energy transition, 01 natural sciences, 7. Clean energy, Energy policy, Renewable energy sources, Benchmark (surveying), 0202 electrical engineering, electronic engineering, information engineering, Canvi climàtic, benchmarking, Energy system, acoustics, Energy economics, lcsh:Environmental sciences, 0105 earth and related environmental sciences, lcsh:GE1-350, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Environmental effects of industries and plants, Política energètica, Benchmarking, Renewable energy, System dynamics, Climatic change, energy transition, lcsh:TD194-195, 13. Climate action, system dynamics, Energies renovables, business, Energy (signal processing)

Abstract

In the present study, we compare energy transition scenarios from a new set of Integrated Assessment Models, the suite of MEDEAS models, based on a systems dynamic modelling approach, with scenarios from two already well know structurally and conceptually different Integrated Assessment Models, the Integrated MARKAL-EFOM System (TIMES) and the Long-range Energy Alternatives Planning system (LEAP). The investigation was carried out to cross-compare and benchmark the response of MEDEAS models with TIMES and LEAP in depicting the energy transition in two different countries, Austria and Bulgaria. The preliminary results show a good agreement across all the models in representing scenarios projecting historical trends, while a major discrepancy is detectable when the rate of implementation of renewable energy is forced to increase to achieve energy system decarbonization. The discrepancy is mainly traceable to the differences in the models’ conception and structures rather than in a real mismatch in representing the same scenarios. The present study is put forward as a guideline for validating new modelling approaches that link energy policy decision tools to the global biophysical and socioeconomic constraints.

Published

2021

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

Author

Christian Kerschner, D. Álvarez, M. Theofilidi, Davide Natalini, Emilio García-Ladona, C. De Castro, J.M. Enríquez, Christian Kimmich, Lukas Eggler, Óscar Carpintero, Kuishuang Feng, R. Kaclíková, Martin Baumann, Jaime Nieto, Iñigo Capellán-Pérez, G. Parrado, K. Buchmann, Angel Nikolaev, Sara Falsini, P. Rodrigo, Fernando Frechoso, J.-D. De Lathouwer, N. Ferreras, Antonio García-Olivares, Ugo Bardi, Pedro L. Lomas, Laixiang Sun, Martin Černý, C. Ploiner, Joaquim Ballabrera-Poy, Ilaria Perissi, Roger Samsó, S. Papagianni, Jordi Solé, Margarita Mediavilla, Klaus Hubacek, Gianluca Martelloni, Luis Fernando Lobejón, Luis J. de Miguel, Aled Jones, L. Radulov, T. Madurell, Oleg Osychenko, Antonio Turiel, Carmen Duce, I. De Blas, European Commission, and Agencia Estatal de Investigación (España)

Subjects

DYNAMICS, Energy industries, Indústries energètiques, Computer science, 020209 energy, Climate change, 02 engineering and technology, Energy transition, 7. Clean energy, Energy costs, Combustibles fòssils, Biophysical constraints, Climate damage, Energy efficiency, GHG emissions, Raw materials, WORLD, BENEFITS, 0202 electrical engineering, electronic engineering, information engineering, EMPLOYMENT, EARTH, Canvi climàtic, Vulnerability (computing), VULNERABILITY, DAMAGE, Primeres matèries, CLIMATE-CHANGE, ECONOMICS, Renewable Energy, Sustainability and the Environment, business.industry, Fossil fuels, Fossil fuel, Environmental economics, Renewable energy, Climatic change, Work (electrical), 13. Climate action, Greenhouse gas, business, Efficient energy use

Abstract

13 pages, 7 figures, 4 tables, 3 appendixes, supplementary data https://doi.org/10.1016/j.rser.2020.110105, 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, future shortage of 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, This work was supported by the European Union through the funding of the MEDEAS project under the Horizon 2020 research and innovation programme [grant agreement No 69128], With the funding support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S), of the Spanish Research Agency (AEI)

Published

2020