Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction
A laminar flamelet model prediction of a bluff body stabilized CH4/H2 flame is reported. The predicted results of temperature and major and minor species as well as NO are compared against the Raman/Rayleigh/LIF data available from the University of Sydney. The effect of differential diffusion is al...
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rr-article-95696722003-01-01T00:00:00Z Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction Mamdud Hossain (7201457) Weeratunge Malalasekera (1258755) Mechanical engineering not elsewhere classified Bluff body Laminar flamelet Non-premixed Mechanical Engineering not elsewhere classified Mechanical Engineering A laminar flamelet model prediction of a bluff body stabilized CH4/H2 flame is reported. The predicted results of temperature and major and minor species as well as NO are compared against the Raman/Rayleigh/LIF data available from the University of Sydney. The effect of differential diffusion is also studied. The calculation shows that temperature and concentration of major and minor species are better predicted by the unity Lewis number flamelet. It is also shown that the current steady state flamelet approach has difficulties in predicting experimental NO levels. 2003-01-01T00:00:00Z Text Journal contribution 2134/4692 https://figshare.com/articles/journal_contribution/Modelling_of_a_bluff_body_stabilized_CH4_H2_flame_based_on_a_laminar_flamelet_model_with_emphasis_on_NO_prediction/9569672 CC BY-NC-ND 4.0 |
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Mechanical engineering not elsewhere classified Bluff body Laminar flamelet Non-premixed Mechanical Engineering not elsewhere classified Mechanical Engineering |
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Mechanical engineering not elsewhere classified Bluff body Laminar flamelet Non-premixed Mechanical Engineering not elsewhere classified Mechanical Engineering Mamdud Hossain Weeratunge Malalasekera Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction |
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A laminar flamelet model prediction of a bluff body stabilized CH4/H2 flame is reported. The predicted results of temperature and major and minor species as well as NO are compared against the Raman/Rayleigh/LIF data available from the University of Sydney. The effect of differential diffusion is also studied. The calculation shows that temperature and concentration of major and minor species are better predicted by the unity Lewis number flamelet. It is also shown that the current steady state flamelet approach has difficulties in predicting experimental NO levels. |
format |
Default Article |
author |
Mamdud Hossain Weeratunge Malalasekera |
author_facet |
Mamdud Hossain Weeratunge Malalasekera |
author_sort |
Mamdud Hossain (7201457) |
title |
Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction |
title_short |
Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction |
title_full |
Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction |
title_fullStr |
Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction |
title_full_unstemmed |
Modelling of a bluff body stabilized CH4/H2 flame based on a laminar flamelet model with emphasis on NO prediction |
title_sort |
modelling of a bluff body stabilized ch4/h2 flame based on a laminar flamelet model with emphasis on no prediction |
publishDate |
2003 |
url |
https://hdl.handle.net/2134/4692 |
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1797470116586192896 |