Numerical parametric study of the evaporation rate of a liquid under a shear gas flow: experimental validation and the importance of confinement on the convection cells and the evaporation rate

Machrafi, Hatim; Lyulin, Yuriy; Iorio, Carlo; Kabov, Oleg; Dauby, Pierre

doi:10.1016/j.ijheatfluidflow.2018.05.003

Article (Scientific journals)

Numerical parametric study of the evaporation rate of a liquid under a shear gas flow: experimental validation and the importance of confinement on the convection cells and the evaporation rate

Machrafi, Hatim; Lyulin, Yuriy; Iorio, Carlo et al.

2018 • In International Journal of Heat and Fluid Flow

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https://hdl.handle.net/2268/223940

DOI
10.1016/j.ijheatfluidflow.2018.05.003

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Disciplines :

Physics

Author, co-author :

Machrafi, Hatim ; Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > Thermodynamique des phénomènes irréversibles

Lyulin, Yuriy

Iorio, Carlo

Kabov, Oleg

Dauby, Pierre ; Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > Thermodynamique des phénomènes irréversibles

Language :

English

Title :

Numerical parametric study of the evaporation rate of a liquid under a shear gas flow: experimental validation and the importance of confinement on the convection cells and the evaporation rate

Publication date :

2018

Journal title :

International Journal of Heat and Fluid Flow

ISSN :

0142-727X

Publisher :

Institution of Mechanical Engineering Publications, United Kingdom

Peer reviewed :

Peer Reviewed verified by ORBi

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since 28 May 2018

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Bibliography

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Dauby, P.C., Colinet, P., Johnson, D., Theoretical analysis of a dynamic thermoconvective pattern in a circular container. Phys. Rev. E 61 (2000), 2663–2668.
Drazin, P., Reid, W.H., Hydrodynamic Stability. second ed., 1981, Cambridge University Press, Cambridge.
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Gibbs, J.W., Scientific Papers. 1906, Longmans, London, 326 (Dover reprint, New York, 1961.
Grishaev, V., Amirfazli, A., Chikov, S., Lyulin, Y., Kabov, O., Study of edge effect to stop liquid spillage for microgravity application. Microgravity Sci. Technol. 1 (2013), 27–33.
Haut, B., Colinet, P., Surface-tension-driven instabilities of a pure liquid layer evaporating into an inert gas. J. Colloid Interface Sci. 285 (2005), 296–305 (2005).
Iorio, C.S., Goncharova, O., Kabov, O., Heat and mass transfer control by evaporative thermal pattering of thin liquid layers. Comput. Therm. Sci. 3 (2011), 333–342.
Li, Y.S., Liu, S.X., Yu, Y.X., Lai, G.Z., Numerical modeling of Boussinesq equations by finite element method. Coast. Eng. 37 (1999), 97–122.
Lyulin, Y., Kabov, O., Evaporative convection in a horizontal liquid layer under shear–stress gas flow. Int. J. Heat Mass Transfer 70 (2014), 599–609.
Machrafi, H., Rednikov, A., Colinet, P., Dauby, P.C., Bénard instabilities in a binary-liquid layer evaporating into an inert gas: stability of quasi-stationary and time-dependent reference profiles. Eur. Phys. J.S.T. 192 (2011), 71–81.
Machrafi, H., Rednikov, A., Colinet, P., Dauby, P.C., Time-dependent Marangoni-Bénard instability of an evaporating binary liquid layer including gas transients. Phys. Fluids, 25, 2013, 084106.
Machrafi, H., Sadoun, N., Rednikov, A., Dehaeck, S., Dauby, P.C., Colinet, P., Evaporation rates and Bénard-Marangoni supercriticality levels for liquid layers under an inert gas flow. Micrograv. Sci. Technol. 25 (2013), 251–265.
Machrafi, H., Iorio, C.S., Dauby, P.C., Relation between convective thermal patterns and heat flux through an evaporating surface via two-dimensional and three-dimensional numerical simulations. Interf. Phenom. Heat Transf. 2 (2014), 199–209.
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