Combustion characteristics and pollutant emissions in transient oxy-combustion of a single biomass particle: a numerical study
Combustion characteristics and pollutant emissions in transient oxy-combustion of a single biomass particle: a numerical study
Oxy-combustion of biomass is a potentially attractive and yet largely unexplored technology facilitating the negative generation of CO2. In this paper, numerical simulations are conducted to investigate the transient combustion process of a single biomass particle in O2/N2 and O2/CO2 atmospheres, and the results are validated against the existing experimental data. Oxygen concentration varies from 27% to 100% in the investigated gaseous atmospheres. The spatiotemporal evolutions of the gas-phase temperature and species concentration fields are explored to further understand the transient combustion characteristics of biomass particles in oxygenated atmospheres. The results show considerably different burning behaviors under carbon dioxide- and nitrogen-containing atmospheres. Simultaneous and sequential combustion of the volatiles and char are distinguished from the numerical simulations. Further, NOx and SOx emissions are predicted on the basis of the validated numerical combustion model. A qualitative analysis is then performed to investigate the influences of oxygen concentration and carbon dioxide atmosphere upon the pollutant emissions. It is shown that CO2 has a significant inhibitory effect on NOx formation, while it promotes SO2 emissions. As oxygen concentration increases, the NO and SO2 emission rates decrease under both types of gas atmospheres. Nonetheless, the overall NOx and SOx emissions feature different trends.
1556–1569
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Wang, Linwei
735aafe4-00f5-431d-aff4-2d9fc87bf381
Sutardi, Tata
0bb997f9-265e-4491-a9b2-9ac09940688a
Paul, Manosh C.
e1054c74-4d6c-41b7-b384-9935b956dfd5
21 February 2019
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Wang, Linwei
735aafe4-00f5-431d-aff4-2d9fc87bf381
Sutardi, Tata
0bb997f9-265e-4491-a9b2-9ac09940688a
Paul, Manosh C.
e1054c74-4d6c-41b7-b384-9935b956dfd5
Karimi, Nader, Wang, Linwei, Sutardi, Tata and Paul, Manosh C.
(2019)
Combustion characteristics and pollutant emissions in transient oxy-combustion of a single biomass particle: a numerical study.
Energy & Fuels, 33 (2), .
(doi:10.1021/acs.energyfuels.8b03602).
Abstract
Oxy-combustion of biomass is a potentially attractive and yet largely unexplored technology facilitating the negative generation of CO2. In this paper, numerical simulations are conducted to investigate the transient combustion process of a single biomass particle in O2/N2 and O2/CO2 atmospheres, and the results are validated against the existing experimental data. Oxygen concentration varies from 27% to 100% in the investigated gaseous atmospheres. The spatiotemporal evolutions of the gas-phase temperature and species concentration fields are explored to further understand the transient combustion characteristics of biomass particles in oxygenated atmospheres. The results show considerably different burning behaviors under carbon dioxide- and nitrogen-containing atmospheres. Simultaneous and sequential combustion of the volatiles and char are distinguished from the numerical simulations. Further, NOx and SOx emissions are predicted on the basis of the validated numerical combustion model. A qualitative analysis is then performed to investigate the influences of oxygen concentration and carbon dioxide atmosphere upon the pollutant emissions. It is shown that CO2 has a significant inhibitory effect on NOx formation, while it promotes SO2 emissions. As oxygen concentration increases, the NO and SO2 emission rates decrease under both types of gas atmospheres. Nonetheless, the overall NOx and SOx emissions feature different trends.
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Published date: 21 February 2019
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Local EPrints ID: 509068
URI: http://eprints.soton.ac.uk/id/eprint/509068
ISSN: 0887-0624
PURE UUID: 88921f34-9dcf-480c-b1d2-46a37395a95b
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Date deposited: 10 Feb 2026 18:09
Last modified: 11 Feb 2026 03:18
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Author:
Nader Karimi
Author:
Linwei Wang
Author:
Tata Sutardi
Author:
Manosh C. Paul
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