2022
DOI: 10.1016/j.combustflame.2022.112296
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Critical temperature for nanoparticle cloud formation during combustion of single micron-sized iron particle

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Cited by 38 publications
(19 citation statements)
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“…Recent literature mainly considers the role of metals as energy carriers, in heat and power generation processes, , and addresses also life-cycle analyses . Several metals are being discussed with numerous studies on iron , and aluminum, , also considering, e.g, lithium and magnesium. ,, Alumina combustion can be performed in air or in water, with the latter providing also hydrogen as a product. ,,, Hydrogen production on demand at any desired location, at different scales, from the highly exothermic reactions of light metals (Al, Mg, Li) with water could be a significant technological advantage. , A schematic view of an aluminum-based power generation process is shown in Figure …”
Section: Fuels For a Carbon-reduced Perspectivementioning
confidence: 99%
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“…Recent literature mainly considers the role of metals as energy carriers, in heat and power generation processes, , and addresses also life-cycle analyses . Several metals are being discussed with numerous studies on iron , and aluminum, , also considering, e.g, lithium and magnesium. ,, Alumina combustion can be performed in air or in water, with the latter providing also hydrogen as a product. ,,, Hydrogen production on demand at any desired location, at different scales, from the highly exothermic reactions of light metals (Al, Mg, Li) with water could be a significant technological advantage. , A schematic view of an aluminum-based power generation process is shown in Figure …”
Section: Fuels For a Carbon-reduced Perspectivementioning
confidence: 99%
“…Metal combustion has been studied with regard to propellants, , but as part of potential circular, noncarbon energy-related processes, such investigations have experienced increasing attention only quite recently. Regarding direct combustion of iron particles in air, recent studies have been devoted to ignition of Fe particles, ,, analysis of the combustion process, also including measurement of particle concentrations and temperature, , , inspection of properties of the (combusted) particles, , and potential regeneration strategies of the resulting iron oxide . From controlled experiments with single particles, different particle sizes, and oxygen concentrations, new phenomena were revealed such as nanoparticle cloud formation during the combustion of a single micron-sized iron particle, and phase changes of the particles within the combustion process …”
Section: Fuels For a Carbon-reduced Perspectivementioning
confidence: 99%
See 2 more Smart Citations
“…To design and improve real-world iron-fuel burners, an in-depth understanding of the fundamentals underlying the combustion of single iron particles is required. In the past few years, the number of more detailed experimental and theoretical studies regarding the combustion of single iron particles has increased drastically. In this early research on iron particle combustion, a good agreement between experiments and theoretical models for low gas temperature (300 K) and low oxygen concentration cases (up to X O2 = 0.21) was obtained.…”
Section: Introductionmentioning
confidence: 99%