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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Azevedo, Nuno Monteiro |
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Hessels, Conrad
Eindhoven University of Technology
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (5/5 displayed)
- 2023Minimum fluidization velocity and reduction behavior of combusted iron powder in a fluidized bedcitations
- 2023Sintering behavior of combusted iron powder in a packed bed reactor with nitrogen and hydrogencitations
- 2022Phase transformations and microstructure evolution during combustion of iron powdercitations
- 2022Reactiekinetiek van verbrand ijzerpoeder met waterstof ; Reduction kinetics of combusted iron powder using hydrogencitations
- 2022Reduction kinetics of combusted iron powder using hydrogencitations
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article
Sintering behavior of combusted iron powder in a packed bed reactor with nitrogen and hydrogen
Abstract
Sintering behavior of micron-sized combusted iron powder is studied in a packed bed reactor, at various temperatures under inert (nitrogen) and reducing (hydrogen) conditions. Compression tests are subsequently used to quantify the degree of sintering. A sintering model, based on the formation of a solid bridge through solid state surface diffusion of iron atoms, matches the experimental results. Sintering of combusted iron occurs at temperatures C in both nitrogen and hydrogen atmospheres and increases exponentially with temperature. The observed decrease in reduction rate at high temperatures is not caused by the sintering process but by the formation of wüstite as an intermediate species, leading to the formation of a dense iron layer. Iron whiskers form at high temperatures (C) in combination with low reduction rates (vol% H2), leading to the production of sub-micron fines. ; Sintering behavior of micron-sized combusted iron powder is studied in a packed bed reactor, at various temperatures under inert (nitrogen) and reducing (hydrogen) conditions. Compression tests are subsequently used to quantify the degree of sintering. A sintering model, based on the formation of a solid bridge through solid state surface diffusion of iron atoms, matches the experimental results. Sintering of combusted iron occurs at temperatures ≥575°C in both nitrogen and hydrogen atmospheres and increases exponentially with temperature. The observed decrease in reduction rate at high temperatures is not caused by the sintering process but by the formation of wüstite as an intermediate species, leading to the formation of a dense iron layer. Iron whiskers form at high temperatures (≥700°C) in combination with low reduction rates (≤25 vol% H 2 ), leading to the production of sub-micron fines.