PF

Panagiotis Fragkos

info

Please Note

5 records found

Journal article (2025) - Bob van der Zwaan, Amir Fattahi, Stefan Pfenninger, Francesco Lombardi, Panagiotis Fragkos, Maria Kannavou, Theofano Fotiou, Giannis Tolios, Will Usher, Francesco Dalla Longa, Mark Dekker, Detlef van Vuuren, Robert Pietzcker, Renato Rodrigues, Felix Schreyer, Daniel Huppmann, Johannes Emmerling
Electricity- and hydrogen-based sector coupling contributes to realizing the transition towards greenhouse gas neutrality in the European energy system. Energy system and integrated assessment models show that, to follow pathways compatible with the European policy target of net-zero greenhouse gas emissions by 2050, large amounts of renewable electricity and H2 need to be generated, mostly by scaling-up wind and solar energy production capacity. With a set of such models, under jointly adopted deep decarbonisation scenario assumptions, we here show that the ensuing direct penetration of electricity and H2 in final energy consumption may rise to average shares of around 60% and 6%, respectively, by 2050. We demonstrate that electrification proves the most cost-efficient decarbonisation route in all economic sectors, while the direct use of H2 in final energy consumption provides a relatively small, though essential, contribution to deep decarbonisation. We conclude that the variance observed across results from different models reflects the uncertainties that abound in the shape of deep decarbonisation pathways, in particular with regard to the role of H2. ...
Journal article (2025) - Rik van Heerden, Oreane Y. Edelenbosch, Johanna Hoppe, Paul Kishimoto, Florian Leblanc, Julien Lefèvre, Gunnar Luderer, Giacomo Marangoni, Alessio Mastrucci, Hazel Pettifor, Robert Pietzcker, Pedro Rochedo, Vassilis Daioglou, Bas van Ruijven, Roberto Schaeffer, Charlie Wilson, Sonia Yeh, Eleftheria Zisarou, Detlef van Vuuren, Thomas Le Gallic, Luiz Bernardo Baptista, Alice Di Bella, Francesco Pietro Colelli, Johannes Emmerling, Panagiotis Fragkos, Robin Hasse
Decarbonization of energy-using sectors is essential for tackling climate change. We use an ensemble of global integrated assessment models to assess CO2 emissions reduction potentials in buildings and transport, accounting for system interactions. We focus on three intervention strategies with distinct emphases: reducing or changing activity, improving technological efficiency and electrifying energy end use. We find that these strategies can reduce emissions by 51–85% in buildings and 37–91% in transport by 2050 relative to a current policies scenario (ranges indicate model variability). Electrification has the largest potential for direct emissions reductions in both sectors. Interactions between the policies and measures that comprise the three strategies have a modest overall effect on mitigation potentials. However, combining different strategies is strongly beneficial from an energy system perspective as lower electricity demand reduces the need for costly supply-side investments and infrastructure. ...
Journal article (2024) - Hauke Henke, Mark Dekker, Francesco Dalla Longa, Igor Tatarewicz, Theofano Fotiou, Michał Lewarski, Daniel Huppmann, Kostas Kavvadias, Bob van der Zwaan, Will Usher, Francesco Lombardi, Robert Pietzcker, Panagiotis Fragkos, Behnam Zakeri, Renato Rodrigues, Joanna Sitarz, Johannes Emmerling, Amir Fattahi
Background: The transition to a climate neutral society such as that envisaged in the European Union Green Deal requires careful and comprehensive planning. Integrated assessment models (IAMs) and energy system optimisation models (ESOMs) are both commonly used for policy advice and in the process of policy design. In Europe, a vast landscape of these models has emerged and both kinds of models have been part of numerous model comparison and model linking exercises. However, IAMs and ESOMs have rarely been compared or linked with one another. Methods: This study conducts an explorative comparison and identifies possible flows of information between 11 of the integrated assessment and energy system models in the European Climate and Energy Modelling Forum. The study identifies and compares regional aggregations and commonly reported variables. We define harmonised regions and a subset of shared result variables that enable the comparison of scenario results across the models. Results: The results highlight how power generation and demand development are related and driven by regional and sectoral drivers. They also show that demand developments like for hydrogen can be linked with power generation potentials such as onshore wind power. Lastly, the results show that the role of nuclear power is related to the availability of wind resources. Conclusions: This comparison and analysis of modelling results across model type boundaries provides modellers and policymakers with a better understanding of how to interpret both IAM and ESOM results. It also highlights the need for community standards for region definitions and information about reported variables to facilitate future comparisons of this kind. The comparison shows that regional aggregations might conceal differences within regions that are potentially of interest for national policy makers thereby indicating a need for national-level analysis. ...
Journal article (2024) - Johannes Emmerling, Pietro Andreoni, Carolina Grottera, Celine Guivarch, Ulrike Kornek, Elmar Kriegler, Daniele Malerba, Giacomo Marangoni, Aurélie Méjean, Femke Nijsse, Franziska Piontek, Yeliz Simsek, Ioannis Charalampidis, Bjoern Soergel, Nicolas Taconet, Toon Vandyck, Marie Young-Brun, Shiya Zhao, Yu Zheng, Massimo Tavoni, Shouro Dasgupta, Francis Dennig, Simon Feindt, Dimitris Fragkiadakis, Panagiotis Fragkos, Shinichiro Fujimori, Martino Gilli
Climate change and inequality are critical and interrelated issues. Despite growing empirical evidence on the distributional implications of climate policies and climate risks, mainstream model-based assessments are often silent on the interplay between climate change and economic inequality. Here we fill this gap through an ensemble of eight large-scale integrated assessment models that belong to different economic paradigms and feature income heterogeneity. We quantify the distributional implications of climate impacts and of the varying compensation schemes of climate policies compatible with the goals of the Paris Agreement. By 2100, climate impacts will increase inequality by 1.4 points of the Gini index on average. Maintaining global mean temperature below 1.5 °C reduces long-term inequality increase by two-thirds but increases it slightly in the short term. However, equal per-capita redistribution can offset the short-term effect, lowering the Gini index by almost two points. We quantify model uncertainty and find robust evidence that well-designed policies can help stabilize climate and promote economic inclusion. ...
Journal article (2023) - Mark M. Dekker, Vassilis Daioglou, Panagiotis Fragkos, Oliver Fricko, Ema Gusheva, Mathijs Harmsen, Daniel Huppmann, Maria Kannavou, Volker Krey, Francesco Lombardi, Gunnar Luderer, Stefan Pfenninger, Robert Pietzcker, Ioannis Tsiropoulos, Behnam Zakeri, Bob van der Zwaan, Will Usher, Detlef van Vuuren, Renato Rodrigues, Harmen Sytze de Boer, Francesco Dalla Longa, Laurent Drouet, Johannes Emmerling, Amir Fattahi, Theofano Fotiou
Energy models are used to study emissions mitigation pathways, such as those compatible with the Paris Agreement goals. These models vary in structure, objectives, parameterization and level of detail, yielding differences in the computed energy and climate policy scenarios. To study model differences, diagnostic indicators are common practice in many academic fields, for example, in the physical climate sciences. However, they have not yet been applied systematically in mitigation literature, beyond addressing individual model dimensions. Here we address this gap by quantifying energy model typology along five dimensions: responsiveness, mitigation strategies, energy supply, energy demand and mitigation costs and effort, each expressed through several diagnostic indicators. The framework is applied to a diagnostic experiment with eight energy models in which we explore ten scenarios focusing on Europe. Comparing indicators to the ensemble yields comprehensive ‘energy model fingerprints’, which describe systematic model behaviour and contextualize model differences for future multi-model comparison studies. ...