Publications (selected)
1. Nmira, Fatiha & Bouffard, Antoine & Liu, Fengshan
& Consalvi, Jean-Louis. (2024). Assessment of a PAH-based soot production
model in laminar coflow methane diffusion flames doped by gasoline surrogate
fuels. Fire Safety Journal. 150. 104252. 10.1016/j.firesaf.2024.104252.
2. Weiss, Martin & Littin, Mijail & Escudero, F. &
Liu, Fengshan & Demarco, Rodrigo. (2024). Evaluation of Extended Reaction
Mechanisms in Soot Modeling in a Vaporized Gasoline Laminar Coflow Diffusion
Flame. 10.2139/ssrn.4792792.
3. Escudero, F. & Littin, Mijail & Demarco, Rodrigo
& Liu, Fengshan & Fuentes, Andrés. (2023). Sooting properties of
laminar coflow non-premixed ethylene/hydrogen flames influenced by water vapor
addition to the oxidizer. Fire Safety Journal. 141. 103997. 10.1016/j.firesaf.2023.103997.
4. Liu, Guanghai & Zhu, Jinyu & Liu, Yuying &
Consalvi, Jean-Louis & Liu, Fengshan. (2023). A Full-Spectrum Correlated
K-distribution Based Interpolation Weighted-Sum-of-Gray-Gases model for
CO2-H2O-soot mixture. International Journal of Heat and Mass Transfer. 210.
124160. 10.1016/j.ijheatmasstransfer.2023.124160.
5. Zhang, Yindi & Xin, Yue & Mengting, Si & Liu,
Fengshan & Lou, Chun. (2023). Experimental study on soot formation and
primary particle size in oxy-combustion ethylene diffusion flames under CO2
substitution for N2. Case Studies in Thermal Engineering. 48. 103060.
10.1016/j.csite.2023.103060.
6. Yazıcı, Halil İbrahim & Erturk, Hakan & Liu,
Fengshan. (2023). Effect of necking and polydispersity in aggregate and primary
particle size on the scattering matrix of soot aggregates. Journal of Aerosol
Science. 173. 106226. 10.1016/j.jaerosci.2023.106226.
7. Yazıcı, Halil İbrahim & Erturk, Hakan & Liu,
Fengshan. (2023). Different necking models in predicting the measured
scattering matrix of soot aggregates. Journal of Aerosol Science. 172. 106194.
10.1016/j.jaerosci.2023.106194.
8. Liu, Yuying & Zhu, Jinyu & Liu, Guanghai & Liu,
Fengshan & Consalvi, Jean-Louis. (2023). Assessment of various
Full-Spectrum Correlated K-distribution methods in radiative heat transfer in
oxy-fuel sooting flames. International Journal of Thermal Sciences. 184.
107919. 10.1016/j.ijthermalsci.2022.107919.
9. Senaratne, Amrith & Olfert, Jason & Smallwood, Greg
& Liu, Fengshan & Lobo, Prem & Corbin, Joel. (2023). Size and light
absorption of miniature-inverted-soot-generator particles during operation with
various fuel mixtures. Journal of Aerosol Science. 170. 106144.
10.1016/j.jaerosci.2023.106144.
10. Liu, Guanghai & Zhu, Jinyu & Liu, Yuying & Consalvi,
Jean-Louis & Liu, Fengshan. (2023). A Full-Spectrum Correlated
K-Distribution Based Interpolation Weighted-Sum-Of-Gray-Gases Model for
Co2-H2o-Soot Mixture. SSRN Electronic Journal. 10.2139/ssrn.4360291.
11. Yazıcı, Halil İbrahim & Erturk, Hakan & Liu,
Fengshan. (2023). Effect of Necking and Polydispersity in Aggregate and Primary
Particle Size on the Scattering Matrix of Soot Aggregates.
10.2139/ssrn.4431970.
12. Yazıcı, Halil İbrahim & Erturk, Hakan & Liu,
Fengshan. (2023). Different Necking Models in Predicting the Measured
Scattering Matrix of Soot Aggregates. SSRN Electronic Journal.
10.2139/ssrn.4444033.
13. Liu, Fengshan & Consalvi, Jean-Louis. (2023).
Carbonaceous particles in flames and fires. 10.1016/B978-0-323-99901-4.00027-5.
14. Liu, Fengshan & Corbin, Joel & Smallwood, Greg.
(2023). ESTIMATION OF THE SCATTERING PHASE FUNCTION OF AEROSOL PARTICLES BASED
ON MOBILITY SIZE DISTRIBUTION AND SINGLE SCATTERING ALBEDO OR ABSORPTION
COEFFICIENT. 203-210. 10.1615/RAD-23.250.
15. Guo, Junjun & Liu, Peng & Quadarella, Erica &
Yalamanchi, Kiran & Alsheikh, Ibraheem & Chu, Carson & Liu,
Fengshan & Sarathy, Mani & Roberts, William & Im, Hong. (2022).
Assessment of physical soot inception model in normal and inverse laminar
diffusion flames. Combustion and Flame. 246. 112420. 10.1016/j.combustflame.2022.112420.
16. Liu, Fengshan & Consalvi, Jean-Louis & Nmira,
Fatiha. (2022). The importance of accurately modelling soot and radiation
coupling in laminar and laboratory-scale turbulent diffusion flames. Combustion
and Flame. 112573. 10.1016/j.combustflame.2022.112573.
17. Liu, Peng & Chu, Carson & Alsheikh, Ibrahim &
Gubba, Sreenivasa & Saxena, Saumitra & Chatakonda, Obulesu &
Kloosterman, Jeffrey & Liu, Fengshan & Roberts, William. (2022). Soot
production in high pressure inverse diffusion flames with enriched oxygen in
the oxidizer stream. Combustion and Flame. 112378.
10.1016/j.combustflame.2022.112378.
18. Escudero, F. & Cruz, Juan & Verdugo, Ignacio &
Gutierrez Cáceres, Nicolas & Liu, Fengshan & Yon, Jérôme & Fuentes,
Andrés. (2022). Effect of maturity on soot volume fraction measurements using
the AC-LII technique in a laminar coflow ethylene diffusion flame. Proceedings
of the Combustion Institute. 10.1016/j.proci.2022.10.013.
19. Sipkens, Timothy & Corbin, Joel & Koukoulas,
Triantafillos & Oldershaw, Andrew & Lavoie, Thierry & Oliaee, Jalal
& Liu, Fengshan & Leroux, Ian & Smallwood, Greg & Lobo, Prem
& Green, Richard. (2022). Comparison of measurement systems for assessing
number- and mass-based particle filtration efficiency. Journal of Occupational
and Environmental Hygiene. 19. 1-22. 10.1080/15459624.2022.2114596.
20. Liu, Guanghai & Liu, Yuying & Zhu, Jinyu &
Consalvi, Jean-Louis & Liu, Fengshan. (2022). An Improved nongray-wall
emissivity-absorptivity model for the Full-Spectrum Correlated K-distribution
method. International Journal of Heat and Mass Transfer. 188. 122604.
10.1016/j.ijheatmasstransfer.2022.122604.
Profile Details
https://scholar.google.com/citations?hl=en&user=LDB4AkUAAAAJ
https://www.researchgate.net/profile/Fengshan-Liu-2