Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Cost-effective energy retrofit at national building stock level: Data-driven archetype modelling of the techno-economic energy efficiency potential in the Swiss residential sector
Deep building energy retrofit can lead to a significant reduction of energy demand and environmental impacts, but national retrofit rates in Europe are currently below 1%/a. This thesis therefore aims for a better understanding of the cost-effectiveness of energy retrofit measures, considering technological, geospatial, stakeholder and temporal dimensions. For this, a comprehensive modelling framework for the Swiss residential building stock is developed, comprised of a statistical analysis of energy certificates, a physics-based bottom-up model, dynamic calculation of lifecycle costs and a scenario analysis of possible retrofit pathways. The results confirm: 1) the urgent need for substantial energy demand and impact reduction, 2) the high technical saving potential, 3) moderate to high current economic energy and GHG saving potential 4) high dynamic technical and moderate economic energy and GHG saving potential. This thesis ultimately demonstrates that early and deep energy retrofit can contribute both to the technical and economic potential.
Cost-effective energy retrofit at national building stock level: Data-driven archetype modelling of the techno-economic energy efficiency potential in the Swiss residential sector
Deep building energy retrofit can lead to a significant reduction of energy demand and environmental impacts, but national retrofit rates in Europe are currently below 1%/a. This thesis therefore aims for a better understanding of the cost-effectiveness of energy retrofit measures, considering technological, geospatial, stakeholder and temporal dimensions. For this, a comprehensive modelling framework for the Swiss residential building stock is developed, comprised of a statistical analysis of energy certificates, a physics-based bottom-up model, dynamic calculation of lifecycle costs and a scenario analysis of possible retrofit pathways. The results confirm: 1) the urgent need for substantial energy demand and impact reduction, 2) the high technical saving potential, 3) moderate to high current economic energy and GHG saving potential 4) high dynamic technical and moderate economic energy and GHG saving potential. This thesis ultimately demonstrates that early and deep energy retrofit can contribute both to the technical and economic potential.
Cost-effective energy retrofit at national building stock level: Data-driven archetype modelling of the techno-economic energy efficiency potential in the Swiss residential sector
Streicher, Kai Nino (Autor:in) / Patel, Martin
01.01.2020
Hochschulschrift
Elektronische Ressource
Englisch
DDC:
690
Techno-economic potential of large-scale energy retrofit in the Swiss residential building stock
| BASE | 2017
Techno-economic potential of large-scale energy retrofit in the Swiss residential building stock
| BASE | 2017