Sulfur retention by ash during coal combustion. Part I. A model of char particle combustion
Apstrakt
A model for the combustion of porous char particles as a basis for modeling the process of sulfur retention by ash dining coal combustion is developed in this paper. The model belongs to the microscopic intrinsic models and describes the dynamic behavior of a porous char particle during comustion, taking into account temporal and spatial changes of all important physical properties of the char particle and various combustion parameters. The The paramettic analysis of the enhanced model shows that the model represents a good basis for the development of a model for the process of sulfur retention by ash during coal combustion. The model enables die prediction of die values of all parameters necessary for the introduction of reactions between sulfur compounds and mineral components in ash. primarily calcium oxide.
Ključne reči:
dynamic model / char combustion / sulfur retention by ashIzvor:
Journal of the Serbian Chemical Society, 2003, 68, 2, 137-145
DOI: 10.2298/JSC0302137I
ISSN: 0352-5139
WoS: 000181696700008
Scopus: 2-s2.0-0037247520
Kolekcije
Institucija/grupa
VinčaTY - JOUR AU - Ilic, M AU - Grubor, Borislav AU - Manovic, V PY - 2003 UR - https://vinar.vin.bg.ac.rs/handle/123456789/2618 AB - A model for the combustion of porous char particles as a basis for modeling the process of sulfur retention by ash dining coal combustion is developed in this paper. The model belongs to the microscopic intrinsic models and describes the dynamic behavior of a porous char particle during comustion, taking into account temporal and spatial changes of all important physical properties of the char particle and various combustion parameters. The The paramettic analysis of the enhanced model shows that the model represents a good basis for the development of a model for the process of sulfur retention by ash during coal combustion. The model enables die prediction of die values of all parameters necessary for the introduction of reactions between sulfur compounds and mineral components in ash. primarily calcium oxide. T2 - Journal of the Serbian Chemical Society T1 - Sulfur retention by ash during coal combustion. Part I. A model of char particle combustion VL - 68 IS - 2 SP - 137 EP - 145 DO - 10.2298/JSC0302137I ER -
@article{ author = "Ilic, M and Grubor, Borislav and Manovic, V", year = "2003", abstract = "A model for the combustion of porous char particles as a basis for modeling the process of sulfur retention by ash dining coal combustion is developed in this paper. The model belongs to the microscopic intrinsic models and describes the dynamic behavior of a porous char particle during comustion, taking into account temporal and spatial changes of all important physical properties of the char particle and various combustion parameters. The The paramettic analysis of the enhanced model shows that the model represents a good basis for the development of a model for the process of sulfur retention by ash during coal combustion. The model enables die prediction of die values of all parameters necessary for the introduction of reactions between sulfur compounds and mineral components in ash. primarily calcium oxide.", journal = "Journal of the Serbian Chemical Society", title = "Sulfur retention by ash during coal combustion. Part I. A model of char particle combustion", volume = "68", number = "2", pages = "137-145", doi = "10.2298/JSC0302137I" }
Ilic, M., Grubor, B.,& Manovic, V.. (2003). Sulfur retention by ash during coal combustion. Part I. A model of char particle combustion. in Journal of the Serbian Chemical Society, 68(2), 137-145. https://doi.org/10.2298/JSC0302137I
Ilic M, Grubor B, Manovic V. Sulfur retention by ash during coal combustion. Part I. A model of char particle combustion. in Journal of the Serbian Chemical Society. 2003;68(2):137-145. doi:10.2298/JSC0302137I .
Ilic, M, Grubor, Borislav, Manovic, V, "Sulfur retention by ash during coal combustion. Part I. A model of char particle combustion" in Journal of the Serbian Chemical Society, 68, no. 2 (2003):137-145, https://doi.org/10.2298/JSC0302137I . .