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Low-carbon Aluminium

Solution for sustainable construction and renovation

Available in English, Russian, Chinese, Korean, Japanese, and Thai.

In this whitepaper, we review the carbon impact of aluminium in construction, and explore via different real case studies how low-carbon aluminium can help reducing embodied carbon in new buildings, retrofit, and act as a competitive advantage for manufacturers.


Aluminium is an essential construction material with unique properties, including light weight, ease of extrusion to any shape, and excellent durability. These properties, combined with global growth in construction and renovation, contribute to the growing demand for aluminium.

Primary aluminium, or aluminium produced made by smelting bauxite or nepheline ore, is an electricity-intensive raw material. Its production accounts for 4-5 % of the global electricity demand.

Low-carbon aluminium is an essential solution for more sustainable construction and renovation. In this paper, the concept of low-carbon aluminium refers to primary aluminium made with 100 % renewable energy.

Aluminium is a highly circular and fully recyclable material, which has significant potential to reduce product emissions. However, today recycling can only satisfy less than 30 % of global demand: according to the International Aluminium Institute, 75 % of aluminium ever produced is still in use. Additionally, growing demand for aluminium exceeds usable scrap, and more progress is required in sorting post-consumer and fabricated scrap.

New buildings use aluminium in facades, cladding, windows, panels, and partition walls. An education sector case study in chapter 2.3. demonstrates that aluminium can account for 42 % of total embodied carbon in wood-framed buildings. In such cases, low-carbon aluminium can reduce embodied carbon by up to one fifth. In commercial buildings with traditional structures and aluminium parts, low-carbon aluminium can reduce carbon by around 7 %.

Low-carbon aluminium can reduce embodied carbon of wood-framed buildings by one fifth. In traditional buildings, reduction potential is 7%.

This white paper was prepared by One Click LCA Ltd, an independent firm of construction carbon specialists operating globally out of Finland. One Click LCA works with construction carbon regulations, research and standardization. One Click LCA Ltd (précédemment Bionova Ltd) est également le développeur du leader mondial des logiciels d'évaluation du cycle de vie de la construction One Click LCA.

The benchmark calculations in this paper are obtained using One Click LCA software and Carbon Heroes Benchmark Program, which is a global building embodied carbon benchmarking initiative collecting embodied carbon data from more than one thousand real projects. The included case studies were provided by stok and One Click LCA Ltd. The views presented herein, as well as any omissions and errors, are those of One Click LCA Ltd. The creation of this white paper was supported by EN+ Group.

Download the whitepaper

Available in English, Russian, Chinese, Korean, Japanese, and Thai.

One Click LCA Ltd

One Click LCA Ltd (précédemment Bionova Ltd) is the developer of the One Click LCA, the world-leading construction life-cycle metrics software.

One Click LCA supports over 60 systems identified in Embodied Carbon Review. One Click LCA also conducts selective leading-edge research in built environment sustainability, in particular for embodied carbon, and life cycle assessment.

Our mission is to help designers bring sustainable buildings and business within everyone’s reach. Discover guides and high-impact research .

Si vous souhaitez en apprendre plus, quelques unes de nos publications

Embodied Carbon Review

Embodied carbon reduction in 100+ regulations and rating systems globally.

City Policy Framework for Dramatically Reducing Embodied Carbon

52 detailed policies for cities to reduce embodied carbon.