Titlebook: Advances in Pyrometallurgy; Developing Low Carbo Camille Fleuriault,Joalet D. Steenkamp,Susanna A.C Conference proceedings 2023 The Mineral

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Hydrogen, a Promising Carbon Substitute in Metallurgy?ute essentially to a global CO. reduction. When focusing on the metal production sector, one of the most promising solutions seems to be the utilization of hydrogen. Similar to carbon, hydrogen can act as both a reducing agent and an energy source. However, this looks easy only at the first glance.

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Use of H2 in Mn-Ferroalloy Productiond Si, H. cannot be the only solution, as the stability of the oxides of these elements is higher compared to Fe. H. can, however, be used in the Mn-process together with other low CO. emission mitigations. In the Mn-ferroalloy process, H. can be used to reduce higher manganese oxides to MnO, and the

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Development of Fossil-Free Technologies for the Metallurgical Industry—Swerim Pilot and Industrial E biocarbon for the substitution of fossil carbon is essential. Swerim has in recent years made great efforts to support the metal industry for a smooth C-neutral transition. This paper will highlight the projects using biocarbon and H. in different metallurgical processes including the installation

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Investigation of High-H2 Reducing Gas Delivery Through Shaft-Level Tuyeres With Computational Fluid ce is a critical area of focus for decarbonization efforts. Generally, the replacement of coke with injected fuels such as natural gas or syngas has been a key pathway for reducing emissions. These injectants provide higher concentrations of H. reducing gas, decreasing reliance on CO reactions, but

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Effect of Hydrogen-Rich Atmosphere on Softening and Melting Behaviors of Ferrous Burden in Blast Furripping performance tests were performed on the burden under different atmospheric ratios. The results showed that the softening start temperature decreased as the H. ratio increased, giving the blast furnace a broader softening zone. As less FeO-containing low-melting-point phase was generated, the

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Hydrogen-Based Direct Reduction of Iron Oxidesction reactions strongly depend on mass transport kinetics, nucleation during the multiple phase transformations, the oxide’s chemistry and microstructure, and on plasticity, damage, and fracture associated with the phase transformation and mass transport phenomena occurring during reduction. Unders