Numerical analysis of pulverized biomass combustion
Combustion of pulverized biomass in a laboratory swirl burner is computationally investigated. The two-phase flow is modelled by an Eulerian-Lagrangian approach. The particle size distribution and turbulent particle dispersion are considered. The radiative heat transfer is modelled by the P1 method....
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EDP Sciences
2021
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oai:doaj.org-article:d716d4f1a07b46e8a6be4c7d8bdd83be2021-11-12T11:44:33ZNumerical analysis of pulverized biomass combustion2267-124210.1051/e3sconf/202132101001https://doaj.org/article/d716d4f1a07b46e8a6be4c7d8bdd83be2021-01-01T00:00:00Zhttps://www.e3s-conferences.org/articles/e3sconf/pdf/2021/97/e3sconf_icchmt2021_01001.pdfhttps://doaj.org/toc/2267-1242Combustion of pulverized biomass in a laboratory swirl burner is computationally investigated. The two-phase flow is modelled by an Eulerian-Lagrangian approach. The particle size distribution and turbulent particle dispersion are considered. The radiative heat transfer is modelled by the P1 method. For modelling turbulence, different RANS modelling approaches are applied. The pyrolysis of the solid fuel is modelled by a single step mechanism. For the combustion of the volatiles a two-step reaction mechanism is applied. The gas-phase conversion rate is modelled by the Eddy Dissipation Model, combined with kinetics control. The results are compared with measurements.Deniz Canal CansuBöke ErhanBenim Ali CemalEDP SciencesarticleEnvironmental sciencesGE1-350ENFRE3S Web of Conferences, Vol 321, p 01001 (2021) |
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Environmental sciences GE1-350 |
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Environmental sciences GE1-350 Deniz Canal Cansu Böke Erhan Benim Ali Cemal Numerical analysis of pulverized biomass combustion |
description |
Combustion of pulverized biomass in a laboratory swirl burner is computationally investigated. The two-phase flow is modelled by an Eulerian-Lagrangian approach. The particle size distribution and turbulent particle dispersion are considered. The radiative heat transfer is modelled by the P1 method. For modelling turbulence, different RANS modelling approaches are applied. The pyrolysis of the solid fuel is modelled by a single step mechanism. For the combustion of the volatiles a two-step reaction mechanism is applied. The gas-phase conversion rate is modelled by the Eddy Dissipation Model, combined with kinetics control. The results are compared with measurements. |
format |
article |
author |
Deniz Canal Cansu Böke Erhan Benim Ali Cemal |
author_facet |
Deniz Canal Cansu Böke Erhan Benim Ali Cemal |
author_sort |
Deniz Canal Cansu |
title |
Numerical analysis of pulverized biomass combustion |
title_short |
Numerical analysis of pulverized biomass combustion |
title_full |
Numerical analysis of pulverized biomass combustion |
title_fullStr |
Numerical analysis of pulverized biomass combustion |
title_full_unstemmed |
Numerical analysis of pulverized biomass combustion |
title_sort |
numerical analysis of pulverized biomass combustion |
publisher |
EDP Sciences |
publishDate |
2021 |
url |
https://doaj.org/article/d716d4f1a07b46e8a6be4c7d8bdd83be |
work_keys_str_mv |
AT denizcanalcansu numericalanalysisofpulverizedbiomasscombustion AT bokeerhan numericalanalysisofpulverizedbiomasscombustion AT benimalicemal numericalanalysisofpulverizedbiomasscombustion |
_version_ |
1718430584091443200 |