Numerical Investigation on H2 Reduction Characteristics of Fe3O4 in Drop Tube Furnace
Author:
Publisher
Springer Nature Switzerland
Link
https://link.springer.com/content/pdf/10.1007/978-3-031-50244-6_16
Reference18 articles.
1. Suopajarvi H, Pongracz E, Fabritius T (2014) Bioreducer use in Finnish blast furnace ironmaking—analysis of CO2 emission reduction potential and mitigation cost. Appl Energy 124:82–93
2. Wang H-t, Zhao W, Chu M-s, Feng C, Liu Z-g, Tang J (2017) Current status and development trends of innovative blast furnace ironmaking technologies aimed to environmental harmony and operation intellectualization. J Iron Steel Res Int 8(24):751–769
3. Kushnir D, Hansen T, Vogl V, Åhman M (2020) Adopting hydrogen direct reduction for the Swedish steel industry: a technological innovation system (TIS) study. J Clean Prod 242:118185
4. Yang Y, Shen Z, Wen X, Liu H (2022) Energy and emission analysis of flash ironmaking-powder generation coupling processes with various fuels. Appl Therm Eng 217:119280
5. Yang Y, Shen Z, Xu J, Liu H (2022) Numerical analysis of the dust control performance of a counter-current swirling configuration in the flash ironmaking reactor. ISIJ Int 11(62):2225–2235
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