B. Abramzon and C. Elata, Unsteady heat transfer from a single sphere in stokes ow, International journal of heat and mass transfer, vol.27, issue.5, p.687695, 1984.

. Bm-abramzon and . Fishbein, Some problems of convective diusion to a spherical particle with pe ? 1000, Journal of engineering physics, vol.32, issue.6, p.682686, 1977.

M. Silvia-alexandrova, A. Karsheva, C. Saboni, and . Gourdon, Eect of the viscosity ratio on the mass transfer into a spherical drop in liquid-liquid dispersions, Journal of Chemical Technology and Metallurgy, vol.49, issue.5, p.429434, 2014.

. As-brignell, Solute extraction from an internally circulating spherical liquid drop, International Journal of Heat and Mass Transfer, vol.18, issue.1, p.6168, 1975.

R. Clift, . Grace, and . Weber, Bubbles, drops, and particles, 1978.

D. Colombet, D. Legendre, A. Cockx, and P. Guiraud, Mass or heat transfer inside a spherical gas bubble at low to moderate reynolds number, International Journal of Heat and Mass Transfer, vol.67, p.10961105, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00919752

F. Cooper, Heat transfer from a sphere to an innite medium, International Journal of Heat and Mass Transfer, vol.20, issue.9, p.991993, 1977.

E. Zhi-gang-feng and . Michaelides, Drag coecients of viscous spheres at intermediate and high reynolds numbers, Journal of Fluids Engineering, vol.123, issue.4, p.841849, 2001.

E. Zhi-gang-feng and . Michaelides, Heat and mass transfer coecients of viscous spheres, International journal of heat and mass transfer, vol.44, issue.23, p.44454454, 2001.

A. Bruce and . Finlayson, The method of weighted residuals and variational principles, vol.73, 2013.

L. E. Johns and . Beckmann, Mechanism of dispersed-phase mass transfer in viscous, single-drop extraction systems, AIChE Journal, vol.12, issue.1, p.1016, 1966.

G. Juncu, Unsteady heat and/or mass transfer from a uid sphere in creeping ow, International journal of heat and mass transfer, vol.44, issue.12, p.22392246, 2001.

G. Juncu, Unsteady ternary mass transfer from a sphere in creeping ow, International journal of thermal sciences, vol.44, issue.3, p.255266, 2005.

G. Juncu, A numerical study of the unsteady heat/mass transfer inside a circulating sphere, International Journal of Heat and Mass Transfer, vol.53, p.30063012, 2010.

S. Leonid, X. B. Kleinman, and . Reed, Unsteady conjugate mass transfer between a single droplet and an ambient ow with external chemical reaction, Industrial & engineering chemistry research, vol.35, issue.9, p.28752888, 1996.

R. Kronig and J. C. Brink, On the theory of extraction from falling droplets, Applied Scientic Research, vol.2, issue.1, p.142, 1951.

A. Kumar and S. Hartland, Correlations for prediction of mass transfer coecients in single drop systems and liquidliquid extraction columns, Chemical Engineering Research and Design, vol.77, issue.5, p.372384, 1999.

J. Magnaudet, M. Rivero, and J. Fabre, Accelerated ows past a rigid sphere or a spherical bubble. part 1. steady straining ow, Journal of uid mechanics, vol.284, p.97135, 1995.

R. Mei, F. James, and . Klausner, Unsteady force on a spherical bubble at nite reynolds number with small uctuations in the free-stream velocity, Physics of Fluids A: Fluid Dynamics, vol.4, issue.1, p.6370, 1992.

A. Broadus-newman, The drying of porous solids: diusion and surface emission equations, AIChE Trans, vol.27, p.203220, 1931.

D. Oliver and . Chung, Flow about a uid sphere at low to moderate reynolds numbers, Journal of Fluid Mechanics, vol.177, p.118, 1987.

D. Oliver and . Chung, Unsteady conjugate heat transfer from a translating uid sphere at moderate reynolds numbers, International Journal of Heat and Mass Transfer, vol.33, issue.3, p.401408, 1990.

L. R. Douglas, J. Oliver, and . Chung, Conjugate unsteady heat transfer from a spherical droplet at low reynolds numbers, International journal of heat and mass transfer, vol.29, issue.6, p.879887, 1986.

. Ar-paschedag, M. Piarah, and . Kraume, Sensitivity study for the mass transfer at a single droplet, International journal of heat and mass transfer, vol.48, issue.16, p.34023410, 2005.

. Sb-pope, The calculation of turbulent recirculating ows in general orthogonal coordinates, Journal of Computational Physics, vol.26, issue.2, p.197217, 1978.

M. Rivero, Etude par simulation numérique des forces exercées sur une inclusion sphérique par un écoulement accéléré, 1991.

E. Ruckenstein, Mass transfer between a single drop and a continuous phase, International Journal of Heat and Mass Transfer, vol.10, issue.12, p.17851792, 1967.

A. Saboni, S. Alexandrova, M. Karsheva, and C. Gourdon, Mass transfer from a contaminated uid sphere, AIChE Journal, vol.57, issue.7, p.16841692, 2011.

S. Ubal, . Harrison, W. J. Grassia, and . Korchinsky, Numerical simulation of mass transfer in circulating drops, Chemical Engineering Science, vol.65, issue.10, p.29342956, 2010.

W. J. Ar-uribe-ramirez and . Korchinsky, Fundamental theory for prediction of multicomponent mass transfer in single-liquid drops at intermediate reynolds numbers (10 ? re ? 250), Chemical engineering science, vol.55, issue.16, p.33193328, 2000.

M. Wegener, M. Paul, and . Kraume, Fluid dynamics and mass transfer at single droplets in liquid/liquid systems, International Journal of Heat and Mass Transfer, vol.71, p.475495, 2014.

C. Wylock, P. Colinet, and B. Haut, Gas absorption into a spherical liquid droplet: numerical and theoretical study, Chemical engineering journal, vol.207, p.851864, 2012.