Abstract

As global concerns about climate change and environmental sustainability escalate, the construction industry is shifting significantly towards eco-resilient and sustainable building practices. This paper comprehensively explores integrating Building Information Modelling (BIM) with eco-resilient principles to create a framework for designing and constructing sustainable buildings. This research introduced a practical approach for evaluating the embodied carbon from building construction, drawing insights from a residential building in Yangon City, Myanmar. The method developed in this study aims to assess the carbon footprints associated with distinct stages of the construction process, including raw material production and material transportation. Additionally, the proposed method compares the material embodied carbon, transportation embodied carbon, and total cost in the residential building, considering two cases of traditional and low-carbon materials. The results indicate that material embodied carbon contributes merely 84% to the overall, while material transportation makes up the remaining 16% for both cases. Utilising low-carbon materials yields remarkable reductions, with a 40% decrease in material embodied carbon and a 39% decrease in transportation carbon footprint compared to conventional materials. However, adopting low-carbon materials incurs a modest increase of approximately 6.7% in total cost. This study underscores the imperative of integrating low-carbon materials into the design of future passive buildings, advancing the pursuit of a net-zero strategy. This research underlines the potential for BIM-driven eco-resilient practices in mitigating carbon emissions and the need for continued innovation and collaboration in sustainable building design and construction.

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