Towards the co-benefits of carbon capture, utilization and sequestration: A life cycle assessment study for steel slag disposal
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Elsevier BV
Reference78 articles.
1. Evaluation of potential factors affecting steel slag carbonation;Baras;Processes,2023
2. Example of a hybrid life-cycle assessment of construction processes;Bilec;J. Infrastruct. Syst.,2006
3. Life cycle assessment of internal recycling options of steel slag in Chinese iron and steel industry;Bo;J. Iron Steel Res. Int.,2011
4. Significance OF environmental life cycle assessment (LCA) method in the iron and steel industry;Burchart-Korol;Metalurgija,2011
5. Life cycle assessment of steel production in Poland: a case study;Burchart-Korol;J. Clean. Prod.,2013
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