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From demand to action: Analysing building emissions and refurbishment scenarios towards climate neutrality

Julia Kirschbaum, Denis Divkovic and Henning Meschede

Applied Energy, 2025, vol. 396, issue C, No S0306261925010323

Abstract: Germany is endeavouring to reduce its greenhouse gas emissions and become climate-neutral by 2045. There are various approaches and measures to achieve this in different sectors. After the energy sector, industry and transport, the building sector in Germany, with 111.7 million tonnes of CO2 equivalents emitted in 2022, is a major emitter that offers a high potential for reducing emissions - especially space heating, which accounts for 73 % of carbon dioxide emissions in the residential sector (as of 2020). To decarbonize space heating in residential buildings, the heat supply has to be fully decarbonized. In addition, taking action on the demand side, e.g. heat demand reduction through increased buildings efficiency, will help to reduce efforts on the supply side. Depending on the buildings age and its heat demand, different actions for insulating the building can be realised. In a case study for a German city, various refurbishment steps are analysed to determine the specific costs of the refurbishment and the economically viable reduction in heat demand. Building upon these initial steps, we assess the interconnections and dependencies stemming from actions on the supply side. The outcomes signify the optimal cost configuration for the combination of both activities. The results of the issues analysed also show their impact on building emissions in a reasonable period up to the planned climate neutrality.

Keywords: Decarbonisation; Building sector; Building refurbishment; Modelling effects; Emission reducing potential (search for similar items in EconPapers)
Date: 2025
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DOI: 10.1016/j.apenergy.2025.126302

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