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Life Cycle Assessment of Primary Aluminum Production

Xuan Lian, Hanchen Gao, Leiting Shen, Yanhao Yu, Yilin Wang, Zhihong Peng

2025Processes18 citationsDOIOpen Access PDF

Abstract

Life cycle assessment (LCA) is used to quantitatively analyze the energy consumption and environmental impact of primary aluminum production in China, the United States, and Europe, as well as global average. The results indicate that electricity and fuel contribute more than 60% of the environmental impact of bauxite mining; steam is the greatest contributor to the environmental impact of alumina production by the Bayer process, with a result exceeding 35%; and electricity contributes >50% of the environmental impact of aluminum electrolysis. The environmental impact of primary aluminum production in China is 1.2 times the global average. The contributions of the three stages of primary aluminum production to the total environmental impact of the process in China are, in descending order, aluminum electrolysis (64.33%), alumina production (33.09%), and bauxite mining (2.58%). If the proportion of thermal power in the electricity source structure is reduced from 60% to 0%, the contribution of electricity to the environmental impact of primary aluminum production will decrease from 38% to 2%, and the total environmental impact will decrease by 73%. Therefore, energy conservation and emissions reduction can be realized through the optimization of the power generation structure, adoption of clean energy production, and improvement of the heat utilization rate in production processes.

Topics & Concepts

Primary (astronomy)Life-cycle assessmentProduction (economics)AluminiumEnvironmental scienceMaterials scienceMetallurgyEconomicsPhysicsAstronomyMacroeconomicsBauxite Residue and UtilizationExtraction and Separation ProcessesMolten salt chemistry and electrochemical processes