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Comparison of Single Coal Char Particle Combustion at Different Conditions
Holíková, K., Žajdlík, R., Markoš, J. and Jelemenský, Ľ. Comparison of Single Coal Char Particle Combustion at Different Conditions Chemical Papers, Vol.59, No. 6a, 2005, 413-420
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Document type:
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Článok z časopisu / Journal Article |
Collection:
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Chemical papers
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Attached Files |
Name |
Description |
MIMEType |
Size |
Downloads |
n596aa413.pdf
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596aa413.pdf |
application/pdf |
522.66KB |
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Author(s) |
Holíková, K. Žajdlík, R. Markoš, J. Jelemenský, Ľ.
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Title |
Comparison of Single Coal Char Particle Combustion at Different Conditions
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Journal name |
Chemical Papers
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Publication date |
2005
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Year available |
2005
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Volume number |
59
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Issue number |
6a
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ISSN |
0366-6352
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Start page |
413
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End page |
420
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Place of publication |
Poland
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Publisher |
Versita
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Collection year |
2005
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Language |
english
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Subject |
290000 Engineering and Technology 290600 Chemical Engineering
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Abstract/Summary |
Comparison of single coal char particle combustion at different operation modes is presented. Experiments were carried out applying a thermogravimetric method. During combustion of a single particle, time dependences of temperature inside the particle, around the particle, and the mass of particle were measured together with the internal porous structure of particles at different degrees of burnout. Obtained experimental results have shown that the mechanism of combustion is strongly dependent on the combustion conditions, especially on the initial temperature and oxygen content in the inlet gas. At temperatures below 500oC, the limiting factor was the oxygen concentration. Combustion using the inlet concentration of oxygen below 5 vol. % was governed by the reaction-diffusion mechanism. If the content of oxygen in the inlet gas exceeded 5 vol. %, combustion proceeded according to the shell progressive mechanism. At temperatures above 500oC, the shell progressive mechanism of coal particle combustion was supposed, independently of the oxygen concentration. The problems related to mathematical modelling of the combustion of the single char particle under condition of reaction-diffusion mechanism are discussed.
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