Ecological performance of reusable load-bearing constructions

Abstract

Abstract This study provides an overview of sustainable reusable load-bearing constructions as a contribution to the debate over whether building construction provides the building industry with the best and most environmentally friendly qualities. By contrasting their building-specific features, it demonstrates the benefits and drawbacks of particular structural elements and envelope solutions and ecological aspects using various system boundaries of life-cycle assessment (LCA). Following a careful consideration of ecological factors and sustainable circular economy criteria, a structural component that is sustainably optimized is defined. This component should be chosen based on external conditions. By selecting environmentally friendly building materials and proper connecting procedures that enable separability, resource-efficient and sustainable buildings can be achieved. Both the selection of load-bearing elements and the necessary insulating material have a significant impact on the ecological performance and reusability options of the components. The elements of homogeneity, separability, and pollutant-freeness play a significant influence in the reuse process, namely in terms of details and construction type in general, as well as the ways of reusing and recycling them. Sustainable solutions for load-bearing building components can be created by simultaneously investigating environmentally friendly building materials and the structure of the components. This paper illustrates how the natural resources can be used both optimally and sustainably. It presents a conceptual framework for scenario development of the LCA of load-bearing structures, their effect on the design and decision-making process. There is a potential of increasing total resource efficiency at the building level with a suitable combination of the material components employed at the component level. Because of this, the overall energy efficiency and its consequent ecological impacts are the main topics of this study.