LCA-Framework to Evaluate Circular Economy Strategies in Existing Buildings

Introduction: Buildings are responsible for 39 % of CO2 emissions in the world and have the largest consumption of natural resources. The concept of Circular Economy can be used as an approach for mitigating environmental impact in this sector. Circular economy in the built environment can be implem...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2020-11, Vol.588 (4), p.42044
Main Authors: Zimmermann, Regitze Kjær, Kanafani, Kai, Rasmussen, Freja Nygaard, Andersen, Camilla, Birgisdóttir, Harpa
Format: Article
Language:English
Subjects:
Building materials
Buildings
Carbon dioxide
Carbon dioxide emissions
Circular economy
Construction
Construction materials
Demolition
Economics
Emissions
Environmental impact
Evaluation
Impact analysis
Life cycle analysis
Life cycle assessment
Life cycles
Natural resources
Preservation
School buildings
Urban environments
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Summary:Introduction: Buildings are responsible for 39 % of CO2 emissions in the world and have the largest consumption of natural resources. The concept of Circular Economy can be used as an approach for mitigating environmental impact in this sector. Circular economy in the built environment can be implemented on a building level through preservation instead of demolition and new construction. In order to assess the environmental impact, the Life Cycle Assessment (LCA) framework can be used. The purpose of this study is to expand the existing building-LCA framework from the CEN TC 350 standards to include existing buildings on the building site in the assessment of buildings and demonstrate the framework on a building case. This is done in order to include the environmental benefits from preserving the building materials that already exists on the building site. Methods: The framework is developed based on the existing standard for LCA for buildings and the framework is demonstrated on an existing school building. Results: The study develops and demonstrates a framework for performing LCA on buildings when an existing building is the starting point. The framework includes scenarios for 1) preservation, 2) renovation and 3) demolition and new construction. The case building shows the importance of including demolition of the existing building as it accounts for 12 % of impacts. It furthermore illustrates how the scenarios can be compared, especially in terms of when the impacts occur, i.e. that most impacts from scenario 3) happen today, which can be a challenge with a limited climate budget. Conclusion: The developed framework allow us to broaden the LCA scope to include existing buildings in the assessment such as demolition of existing buildings on building site. This makes it possible to evaluate the circular strategies on building level using LCA to the benefit of building designers, clients and policy makers.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/588/4/042044