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Full Length Article | Open Access

Making magnesium from low-grade magnesite: Experimental verification and life cycle assessment

Xiaorui Huanga,bZifu Xua,bLiangliang Fua,bZhennan HanbKun ZhaobKangjun WangbDingrong BaibGuangwen Xua,b( )
School of Chemical Engineering, University of Science and Technology Liaoning, Anshan 114051, PR China
Key Laboratory on Resources Chemicals and Materials of Ministry of Education, Shenyang University of Chemical Technology, Shenyang 110142, PR China

Peer review under the responsibility of Chongqing University.

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Abstract

China, as the world‘s largest producer and exporter of metallic magnesium, there are plenty of manufactures in the western provinces using the silicothermic method known as the Pidgeon process. The raw material used is usually dolomite containing about 20 wt.% element Mg. Liaoning province in the northeast China has up to 87 % of the national magnesite reserves, which contains 2–4 times more element Mg than dolomite does. How to economically produce metallic magnesium using magnesite is thus of significance for not only the local industry but also the flexible production of metal magnesium. This study proposed a process to produce magnesium using low-grade magnesite and further validated the proposal through experiments. Models of life cycle analysis are in turn formulated to evaluate the energy consumption and economic performance of the entire process proposed by taking the required source data from the Chinese Life Cycle Database (CLCD). The data comprehensively consider a variety of process equipment, energy supply pathways and geographical environments. In comparison with the Pidgeon process, the proposed pathway exhibited the best economic performance through its utilizing low-grade magnesite as the raw ore containing Mg and coke oven gas from steelworks as the fuel.

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Journal of Magnesium and Alloys

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Cite this article:
Huang X, Xu Z, Fu L, et al. Making magnesium from low-grade magnesite: Experimental verification and life cycle assessment. Journal of Magnesium and Alloys, 2026, 17(C). https://doi.org/10.1016/j.jma.2025.02.025

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Received: 22 October 2024
Revised: 17 February 2025
Accepted: 19 February 2025
Published: 01 April 2025
© 2025 Chongqing University.

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)