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Effects of water addition on laminar premixed ethanol/air flame at elevated temperature and pressure

Abstract:
In this study, the effects of water addition on ethanol/air flames with high water content at elevated temperature and pressure are numerically investigated, and a novel correlation for their laminar burning velocity (LBV) is proposed based on experimental results. The dependence of temperature and pressure exponents on thermodynamic parameters is numerically analyzed and considered in the new correlation to optimize the existing correlation. The fitting results of LBV correlations based on experimental measurements using a constant-volume method demonstrate that incorporating highorder and cross terms into the correlation enhances overall performance, particularly under fuel-rich conditions where existing correlations exhibit significant discrepancies. The new LBV correlation of hydrous ethanol/air mixtures performs well over a wide range of elevated temperatures and pressures and agrees well with experimental data in the literature at high temperature and pressure. The calculated LBV using the new correlation is also in good agreement with simulations using various mechanisms, except for fuel-rich mixtures with high water content, where the LBV is under-predicted by all mechanisms considered, suggesting further development of chemical mechanisms is needed. A sensitivity analysis suggests that under high water content, the dominant reactions of fuel-rich flames are different from those in stoichiometric and fuel-lean mixtures, highlighting that fuel-rich hydrous ethanol/air flames are very sensitive to the water addition. The results also suggest that water addition leads to a reduction in the laminar burning velocity. Both the burnt gas temperature and the peak heat release rate decrease with the water content, with a stronger influence in fuel-rich ethanol/air mixtures. Furthermore, the dilution effect of water addition constitutes the single largest effect in reducing the LBV, while chemical and thermophysical effects are found to be comparatively minor. The findings are helpful in understanding the fundamental combustion properties of hydrous ethanol and optimizing the laminar burning velocity correlation under engine-relevant conditions.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1021/acs.energyfuels.5c03872

Authors

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Division:
MPLS
Department:
Engineering Science
Role:
Author
ORCID:
0000-0001-9057-7492
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Institution:
University of Oxford
Division:
MPLS
Department:
Engineering Science
Role:
Author
ORCID:
0000-0001-6360-9065
More by this author
Division:
MPLS
Department:
Engineering Science
Role:
Author
ORCID:
0000-0001-6656-2389


Publisher:
American Chemical Society
Journal:
Energy and Fuels More from this journal
Volume:
39
Issue:
43
Pages:
20966–20977
Publication date:
2025-10-22
Acceptance date:
2025-10-07
DOI:
EISSN:
1520-5029
ISSN:
0887-0624


Language:
English
Pubs id:
2298615
Local pid:
pubs:2298615
Deposit date:
2025-10-07
ARK identifier:

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