This paper explores the sustainable design and construction approaches employed in developing the new engineering campus at the University of Cambridge. With sustainability as a core driver, the design aimed to minimize whole-life energy consumption and carbon footprint while providing an environment conducive to occupant well-being and promoting future flexibility. Using the innovative Energy Cost Metric (ECM) developed in collaboration with Sir David MacKay, this project exemplifies how whole-life energy assessments can guide sustainable decision-making in construction. Key sustainability strategies include energy-efficient building design, natural ventilation, renewable energy use, and integrating advanced building materials like self-healing concrete. The paper discusses the building's contribution to reducing embodied carbon, enhancing biodiversity, and promoting long-term adaptability, highlighting its alignment with the UN Sustainable Development Goals (SDGs).
Data sharing is not applicable to this article.
The authors declare no conflicts of interest related to this study.
The author alone is responsible for the study's conception, design, data collection, analysis, interpretation, and manuscript preparation.
This research, including authorship and publication, did not receive any specific grant from funding agencies in the public, commercial, or non-profit sectors.
This research did not utilize any specific software or tools
I appreciate the support and expertise of everyone who contributed to this research and manuscript writing, as well as the insightful comments from anonymous reviewers.
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