Hydrogen‐Based Direct Reduction of Iron Oxides Pellets Modeling
The present study deals with the analyses of the direct reduction kinetics during the hydrogen reduction of industrial iron oxide pellets. Various types of pellets with different percentage of total iron content and metal oxides are examined. They are reduced at different temperatures and pressure (700–1100 °C and 1–6 bar) in hydrogen atmosphere. The reduction behavior is described in terms of time to reduction, rate of reduction, and kinetics constant. All the obtained results are analyzed through the employment of a commercial multiobjective optimization tool to precisely define the weight that each single parameter has on the reduction behavior. It is shown that from the point of view of the processing conditions, temperature is the main factor influencing the time to total reduction. From the point of view of the pellets properties, it is mainly influenced by the total iron percentage and then by porosity and basicity index. Also, the kinetics behavior is largely influenced by the reduction temperature even if it is mainly governed by the porosity and pores size from the point of view of the reduced pellets. The reduction rate is also mainly influenced by temperature and then by iron percentage, gas pressure, basicity index, and porosity.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Hydrogen‐Based Direct Reduction of Iron Oxides Pellets Modeling ; day:18 ; month:03 ; year:2023 ; extent:13
Steel research international ; (18.03.2023) (gesamt 13)
- Creator
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Cavaliere, Pasquale
Perrone, Angelo
Marsano, Debora
Primavera, Vito
- DOI
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10.1002/srin.202200791
- URN
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urn:nbn:de:101:1-2023031814163869271647
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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16.08.2025, 3:27 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Cavaliere, Pasquale
- Perrone, Angelo
- Marsano, Debora
- Primavera, Vito
Other Objects (12)
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Utilization of iron oxide bearing pellets waste for preparing hard and soft ferromagnetic glass ceramics
Hydrogen-based direct reduction of iron oxide at 700°C: Heterogeneity at pellet and microstructure scales
Hydrogen-based direct reduction of iron oxide at 700°C: Heterogeneity at pellet and microstructure scales
Optimization of Hydrogen Utilization and Process Efficiency in the Direct Reduction of Iron Oxide Pellets: A Comprehensive Analysis of Processing Parameters and Pellet Composition
TiO2 and Reducing Gas: Intricate Relationships to Direct Reduction of Iron Oxide Pellets
Studies on the Reduction Behavior of Iron Oxide Pellet Fines with Hydrogen Gas: Mechanism and Kinetic Analysis
Results of Hydrogen Reduction of Iron Ore Pellets at Different Temperatures
Carburization Behavior of High-Grade Pellets After Direct Reduction in Pure Hydrogen
Reduction of Iron Oxides with Hydrogen—A Review
Direct Reduction of Iron Ore Pellets by Using CO/CO 2 and CO Gases
Development of a Porous Solid Model for the Direct Reduction of Iron Ore Pellets
The Fate of Water in Hydrogen‐Based Iron Oxide Reduction
Utilization of iron oxide bearing pellets waste for preparing hard and soft ferromagnetic glass ceramics
Hydrogen-based direct reduction of iron oxide at 700°C: Heterogeneity at pellet and microstructure scales
Hydrogen-based direct reduction of iron oxide at 700°C: Heterogeneity at pellet and microstructure scales
Optimization of Hydrogen Utilization and Process Efficiency in the Direct Reduction of Iron Oxide Pellets: A Comprehensive Analysis of Processing Parameters and Pellet Composition
TiO2 and Reducing Gas: Intricate Relationships to Direct Reduction of Iron Oxide Pellets
Studies on the Reduction Behavior of Iron Oxide Pellet Fines with Hydrogen Gas: Mechanism and Kinetic Analysis
Results of Hydrogen Reduction of Iron Ore Pellets at Different Temperatures
Carburization Behavior of High-Grade Pellets After Direct Reduction in Pure Hydrogen
Reduction of Iron Oxides with Hydrogen—A Review
Direct Reduction of Iron Ore Pellets by Using CO/CO 2 and CO Gases
Development of a Porous Solid Model for the Direct Reduction of Iron Ore Pellets
The Fate of Water in Hydrogen‐Based Iron Oxide Reduction