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- Title
Removal of Metallic Iron on Oxide Slags.
- Authors
Shannon, George N.; Fruehan, R. J.; Sridhar, Seetharaman
- Abstract
It is possible, in some cases, for ground coal particles to react with gasifier gas during combustion, allowing the ash material in the coal to form phases besides the expected slag phase. One of these phases is metallic iron, because some gasifiers are designed to operate under a reducing atmosphere ( $${p_{\rm {O}_{2}}}$$ of approximately 10−4 atm). Metallic iron can become entrained in the gas stream and deposit on, and foul, downstream equipment. To improve the understanding of the reaction between different metallic iron particles and gas, which eventually oxidizes them, and the slag that the resulting oxide dissolves in, the kinetics of iron reaction on slag were predicted using gas-phase mass-transfer limitations for the reaction and were compared with diffusion in the slag; the reaction itself was observed under confocal scanning laser microscopy. The expected rates for iron droplet removal are provided based on the size and effective partial pressure of oxygen, and it is found that decarburization occurs before iron reaction, leading to an extra 30- to 100-second delay for carbon-saturated particles vs pure iron particles. A pure metallic iron particle of 0.5 mg should be removed in about 220 seconds at 1400 °C and in 160 seconds at 1600 °C.
- Subjects
METALLURGY; IRON; OXIDES; SLAG; FLUX (Metallurgy); ELECTROSLAG process; MINERAL aggregates; MICROSCOPY
- Publication
Metallurgical & Materials Transactions. Part B, 2009, Vol 40, Issue 5, p727
- ISSN
1073-5615
- Publication type
Article
- DOI
10.1007/s11663-009-9278-3