Towards circular buildings in Hong Kong : a new integrated Technology-Material-Design (TMD) circularity assessment framework

Abstract

As Hong Kong faces increasing pressure on resources and environmental sustainability, there is a growing need to shift towards circular building practices. The ever-increasing demand for sustainable urban development necessitates innovative approaches towards greener and more sustainable building design and construction. This paper introduces a new integrated Technology–Material–Design (TMD) Circularity Assessment Framework, a three-dimensional and comprehensive tool designed to evaluate and enhance the circularity level of buildings in Hong Kong. Through an extensive literature review, the research study identifies a new perspective with key metrics and best practices that inform the new assessment framework, enabling various key stakeholders to pinpoint effective strategies for overcoming profound challenges and seizing timely opportunities to foster a more sustainable and resilient built environment. This paper successfully categorises all circularity assessment frameworks into three perspectives, i.e., material-based, technology-oriented, and design-supported. Future research could apply BIM technology to automate and circularise the new assessment framework. Another significant contribution of this paper is the derivation of a new formula for the Building Circularity Index (BCI) for Hong Kong, which quantifies building circularity levels using a set of defined measurement metrics. By providing a robust assessment method, the TMD Circularity Assessment Framework facilitates informed decision making for architects, engineers, governments, developers, policymakers, and other stakeholders in a new horizon. The review findings underscore the potential of the TMD Framework to guide the transition towards more circular buildings, ultimately contributing to the broader goals of environmental sustainability and resource efficiency in Hong Kong’s construction and real estate sector.