Thermodynamic Modeling of Sustainable Nonferrous Metals Production: Part II
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https://doi.org/10.1007/s11837-020-04283-5 Ó 2020 The Minerals, Metals & Materials Society
THERMODYNAMIC MODELING OF SUSTAINABLE NON-FERROUS METALS PRODUCTION
Thermodynamic Modeling of Sustainable Nonferrous Metals Production: Part II FISEHA TESFAYE ,1,4 ALEXANDRA E. ANDERSON,2,5 and MINGMING ZHANG3,6 ˚ bo Akademi University, Piispankatu 8, 1.—Johan Gadolin Process Chemistry Centre, A 20500 Turku, Finland. 2.—Gopher Resource, 6505 Jewel Ave, Tampa, FL, USA. 3.—ArcelorMittal Global R&D, East Chicago, IN, USA. 4.—e-mail: [email protected]. 5.—e-mail: [email protected]. 6.—e-mail: [email protected]
Demand for nonferrous metals continues to increase globally, as they are essential in a variety of high-tech applications, including in the renewable energy sector. For example, European manufacturing capacity for Li-ion batteries, which require a substantial amount of metals such as Ni and Co, is expected to grow by more than 15 times the current capacity by 2025; consequently, the consumption of valuable metals is expected to increase drastically. According to the World Bank Commodities Price Forecast (Fig. 1), the prices of Sn, Ni, Cu, Zn, and Pb have been increasing since 2016 and are expected to keep rising until 2025. However, the significant disruption in the commodities supply chain due to the COVID-19 pandemic may have short-term fallouts in the forecasted prices. The global increase in the demand for nonferrous metals has also amplified their recovery from waste streams. In addition to promoting the recovery of resources from waste streams, emphasis is also placed on enabling the prevailing primary resources processing technologies to reduce their environmental footprints and improve their energy efficiency. In 2020, JOM advisors of the Recycling and Environmental Technologies Committee and the Process Technology and Modeling Committee of TMS organized special topics on Cleaner
The Thermodynamic Modeling of Sustainable Non-Ferrous Metals Production topic was organized by Fiseha Tesfaye, JOM Advisor, Process Technology and Modeling Committee; Alexandra Anderson, Guest Editor, Process Technology and Modeling Committee; and Mingming Zhang, JOM Advisor, Recycling and Environmental Technologies Committee. (Received July 1, 2020; accepted July 5, 2020)
Manufacturing of Critical Metals2 and Thermodynamic Modeling of Sustainable Nonferrous Metals Production. The latter topic was divided into two parts. Part I constituted articles with a focus on promoting improved and sustainable ways of producing the platinum group metals (PGMs) and rare earth metals (REMs) from different sources. It was published in the July issue of JOM.3 For Part II, in the present issue, papers covering experimental investigations, thermodynamic modeling, metallurgical process optimization, resource efficiency, and environmental issues, particularly those pertaining to nonferrous metallurgical processes, were invited, and five articles were approved for publication. The papers in this topic are primarily devoted to the
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