Advances in Pyrometallurgy
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Carbon intensive industries are at a crossroads. Long-term manufacturing plans using pyrometallurgical processes all include decarbonization levers: we must solve the problem of fossil-based reduction and fossil-based power generation processes for metals production. This collection explores innovative and diverse strategies for the enablement of low carbon industries in the high-temperature metals and materials processing fields. In particular, the following processes are investigated: · Electrolysis and electrification of metallurgical processes
· High-temperature electrolytic routes for…mehr

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Produktbeschreibung
Carbon intensive industries are at a crossroads. Long-term manufacturing plans using pyrometallurgical processes all include decarbonization levers: we must solve the problem of fossil-based reduction and fossil-based power generation processes for metals production. This collection explores innovative and diverse strategies for the enablement of low carbon industries in the high-temperature metals and materials processing fields. In particular, the following processes are investigated:
· Electrolysis and electrification of metallurgical processes

· High-temperature electrolytic routes for metal and alloy production
· Use of hydrogen and other alternative non-carbonaceous reducing agents

· Biofuels and other non-fossil reagents for metallurgical applications

· Direct andindirect use of solar energy in high-temperature processing

· Energy efficiency and waste heat recovery concepts applied to pyrometallurgical operations
Autorenporträt
Camille Fleuriault, Eramet Norway; Joalet Steenkamp, XPS Glencore; Dean Gregurek, RHI Magnesita; Jesse F. White, KTH Royal Institute of Technology; Quinn G. Reynolds, Mintek; Phillip J. Mackey, P.J. Mackey Technology, Inc.; Susanna Aletta Carolina Hockaday, Gam Aesa