A comprehensive model of NOx and SO2 emissions from advanced coal combustion in a complex geometry CLC equipment

The paper describes experiences in the modeling of complex geometry CLC equipment. The facility consists of two reactors: the air reactor and the fuel reactor. The fuzzy logic (FL) methods are used in the study for the prediction of NOx and SO2 from the solid fuels combustion in CLC equipment. Maxim...

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Autores principales: Krzywanski Jaroslaw, Czakiert Tomasz, Zylka Anna, Idziak Kamil, Sztekler Karol, Nowak Wojciech
Formato: article
Lenguaje:EN
FR
Publicado: EDP Sciences 2021
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Acceso en línea:https://doaj.org/article/e3765e1a802b40acae22b5882cace270
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Sumario:The paper describes experiences in the modeling of complex geometry CLC equipment. The facility consists of two reactors: the air reactor and the fuel reactor. The fuzzy logic (FL) methods are used in the study for the prediction of NOx and SO2 from the solid fuels combustion in CLC equipment. Maximum errors between measured and predicted results are lower than 10 %.