Katopodis, TheodorosTheodorosKatopodisSfetsos, AthanasiosAthanasiosSfetsosVarela, VasilikiVasilikiVarelaKarozis, S.S.KarozisKaravokyros, G.G.KaravokyrosEftychidis, G.G.EftychidisGkotsis, I.I.GkotsisLeventakis, G.G.LeventakisHedel, RalfRalfHedelKoutiva, I.I.KoutivaMakropoulos, C.C.Makropoulos2022-03-052022-03-052018https://publica.fraunhofer.de/handle/publica/25345010.6001/energetika.v64i1.3725This paper introduces a methodological approach for identifying the resilience of interconnected EU critical infrastructures to climate change. The proposed approach tries to establish a consequence-based modelling framework for assessing climate-dependent causal relationships between CI operation and response to climate impacts with an aim to minimise disruptions to service flows under diverse conditions. The proposed study provides a description of the virtual city's forest fire and smoke reference scenario with their optional damages to the electricity transmission and distribution network.enrisk assessmentEuropean critical infrastructuresclimate change629004journal article