Circular economy strategies for adaptive reuse of cultural heritage buildings to reduce environmental impacts

  • Gillian Joanne Foster (Speaker)

Activity: Talk or presentationScience to science


Circular economy strategies seek to reduce the total resources extracted from the environment and reduce the wastes that human activities generate in pursuit of human wellbeing. Circular Economy concepts are well suited to the building and construction sector in cities. For example, refurbishing and adaptively reusing underutilized or abandoned buildings can revitalize neighborhoods whilst achieving environmental benefits. Cultural heritage buildings hold a unique niche in the urban landscape. In addition to shelter, they embody the local cultural and historic characteristics that define communities. Therefore, extending their useful lifespan has multiple benefits that extend beyond the project itself to the surrounding area, contributing to economic and social development. To explore this complex issue, the research applies systematic literature review and synthesis methods. Decision makers lack knowledge of the environmental benefits of adaptive reuse of cultural heritage buildings and lack tools to implement these projects. A new comprehensive circular economy framework for the adaptive reuse of cultural heritage buildings to reduce environmental impacts intends to meet these needs. The framework integrates methods and techniques from the building and construction literature that aim to reduce lifecycle environmental impact of buildings with a circular product supply chain approach.
Period15 Oct 201918 Oct 2019
Event title19th European Roundtable for Sustainable Consumption and Production
Event typeUnknown
Degree of RecognitionInternational

Austrian Classification of Fields of Science and Technology (ÖFOS)

  • 509
  • 201128 Sustainable building
  • 405004 Sustainable agriculture
  • 401905 Renewable resources
  • 502022 Sustainable economics
  • 207106 Renewable energy
  • 105904 Environmental research
  • 211908 Energy research