CC BY 4.0Lombardi, Pio AlessandroPio AlessandroLombardiArendarski, BartlomiejBartlomiejArendarskiSuslov, KonstantinKonstantinSuslovShamarova, NataliaNataliaShamarovaSokolnikova, PolinaPolinaSokolnikovaPantaleo, Antonio MarcoAntonio MarcoPantaleoKomarnicki, PrzemyslawPrzemyslawKomarnicki2022-03-146.9.20192018https://publica.fraunhofer.de/handle/publica/40516210.1051/e3sconf/20186901013The COP 21 agreement state that the reduction of CO2 emissions will limit the rise of global temperatures and thus the impacts of global warming. Since the energy sector is one of the biggest CO2 emitters, greening it is one of the actions selected to achieve COP 21 targets. Increased generation from renewable sources, however, should entail an increase of flexibility options for integrating renewable energy in the system. The volatility of renewable sources such as wind and sun requires flexible storage units, energy conversion and management techniques as well as active consumer participation to ensure the power system is balanced. In multi-energy systems, the electricity generated by renewables is converted into other energy forms such heat or gas. Rural areas result to be attractive test bench in which multi-energy system could be developed. The objective of this study is to analyze the potential for the development of multi-energy systems in remote Russian communities.en670A Net-Zero Energy System Solution for Russian Rural Communitiesconference paper