2023
DOI: 10.1016/j.jaecs.2023.100116
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Towards utilization of iron powders for heating and power

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Cited by 7 publications
(1 citation statement)
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“…Note that these iron particles are produced via atomisation and the particle size is adjustable. In the context of the considered power plant oxidation-reduction process typical iron particle sizes are in the range 10-20 µm and therefore comparable to (the low end) of PSDs for pulverised volatile-containing solid fuels (Janicka et al 2023), while their size is expected not to change significantly after multiple oxidation-reduction cycles (Baigmohammadi et al 2023). Future simulations will use the full PSD from Fedoryk et al (2023) to explore the effects of particle size on ignition and combustion.…”
Section: Validationmentioning
confidence: 99%
“…Note that these iron particles are produced via atomisation and the particle size is adjustable. In the context of the considered power plant oxidation-reduction process typical iron particle sizes are in the range 10-20 µm and therefore comparable to (the low end) of PSDs for pulverised volatile-containing solid fuels (Janicka et al 2023), while their size is expected not to change significantly after multiple oxidation-reduction cycles (Baigmohammadi et al 2023). Future simulations will use the full PSD from Fedoryk et al (2023) to explore the effects of particle size on ignition and combustion.…”
Section: Validationmentioning
confidence: 99%