F. Risso, Agitation, mixing, and transfers induced by bubbles, Annu. Rev. Fluid Mech, vol.50, p.25, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01778999

J. Magnaudet and I. Eames, The motion of high-Reynolds-number bubbles in inhomogeneous flows, Annu. Rev. Fluid Mech, vol.32, p.659, 2000.

F. Takemura and J. Magnaudet, The transverse force on clean and contaminated bubbles rising near a vertical wall at moderate Reynolds number, J. Fluid Mech, vol.495, p.235, 2003.

A. W. De-vries, A. Biesheuvel, and L. Van-wijngaarden, Notes on the path and wake of a gas bubble rising in pure water, J. Multiphase Flow, vol.28, p.1823, 2002.

M. F. Moctezuma, R. Lima-ochoterena, and R. Zenit, Velocity fluctuations resulting from the interaction of a bubble with a vertical wall, Phys. Fluids, vol.17, p.98106, 2005.

B. Figueroa-espinoza, R. Zenit, and D. Legendre, The effect of confinement on the motion of a single clean bubble, J. Fluid Mech, vol.616, p.419, 2008.

K. Malysa, M. Krasowska, and M. Krzan, Influence of surface active substances on bubble motion and collision with various interfaces, Adv. Colloid Interface Sci. 114, vol.115, p.205, 2005.

R. Zenit and D. Legendre, The coefficient of restitution for air bubbles colliding against solid walls in viscous liquids, Phys. Fluids, vol.21, p.83306, 2009.

E. Klaseboer, R. Manica, M. H. Hendrix, C. D. Ohl, and D. Y. Chan, A force balance model for the motion, impact, and bounce of bubbles, Phys. Fluids, vol.26, p.92101, 2014.

H. K. Tsao and D. L. Koch, Observation of high Reynolds number bubbles interacting with a rigid wall, Phys. Fluids, vol.9, p.44, 1997.

C. Barbosa, D. Legendre, and R. Zenit, Conditions for the sliding-bouncing transition for the interaction of a bubble with an inclined wall, Phys. Rev. Fluids, vol.1, p.32201, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01792573

T. Maxworthy, Bubble rise under an inclined plate, J. Fluid Mech, vol.229, p.659, 1991.

J. Maslyiah, R. Jauhari, and M. Gray, Drag coefficient for air bubbles rising along an inclined surface, Chem. Eng. Sci, vol.49, p.1905, 1994.

P. Aussillous and D. Quéré, Bubbles creeping in a viscous liquid along a slightly inclined plane, Europhys. Lett, vol.59, p.370, 2002.

A. Perron, L. I. Kiss, and S. Poncsak, An experimental investigation of the motion of single bubbles under a slightly inclined surface, Int. J. Multiphase Flow, vol.32, p.606, 2006.

C. Barbosa, D. Legendre, and A. R. Zenit,

B. Podvin, S. Khoja, F. Moraga, and D. Attinger, Model and experimental visualizations of the interaction of a bubble with an inclined wall, Chem. Eng. Sci, vol.63, p.1914, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01834662

C. Dubois, A. Duchesne, and H. Caps, Between inertia and viscous effects: Sliding bubbles beneath an inclined plane, Europhys. Lett, vol.115, p.44001, 2016.

K. M. Debisschop, M. J. Miksis, and D. M. Eckmann, Bubble rising in an inclined channel, Phys. Fluids, vol.14, p.93, 2002.

C. E. Norman and M. J. Miksis, Dynamics of a gas bubble rising in an inclined channel at finite Reynolds number, Phys. Fluids, vol.17, p.22102, 2005.

S. Senthilkumar, Y. M. Delaure, D. B. Murray, and B. Donnelly, The effect of the VOF-CSF static contact angle boundary condition on the dynamics of sliding and bouncing ellipsoidal bubbles, Int. J. Heat Fluid Flow, vol.32, p.964, 2011.

B. Donnelly, T. S. O'donovan, and D. B. Murray, Surface heat transfer due to sliding bubble motion, Appl. Therm. Eng, vol.29, p.1319, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00541155

S. R. Hodges, O. E. Jensen, and J. M. Rallison, Sliding, slipping and rolling: the sedimentation of a viscous drop down a gently inclined plane, J. Fluid Mech, vol.512, p.95, 2004.

R. Clift, J. R. Grace, and M. E. Weber, Bubbles, Drops, and Particles, 1978.

D. Legendre, R. Zenit, and J. R. Velez-cordero, On the deformation of gas bubbles in liquids, Phys. Fluids, vol.24, p.43303, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00921321

V. G. Levich, The motion of bubbles at high Reynolds numbers, Zh. Eksp. Teor. Fiz, vol.19, p.18, 1949.

D. W. Moore, The boundary layer on a spherical gas bubble, J. Fluid Mech, vol.16, p.161, 1963.

D. W. Moore, The velocity of rise of distorted gas bubbles in a liquid of small viscosity, J. Fluid Mech, vol.23, p.749, 1965.

L. Schiller and A. Z. Naumann, A drag coefficient correlation, Z. Ver. Dtsch. Ing, vol.77, p.318, 1933.

L. Mahadevan and Y. Pomeau, Phys. Fluids, vol.11, p.2449, 1999.

D. W. Moore, The rise of a gas bubble in a viscous liquid, J. Fluid Mech, vol.6, p.113, 1959.

D. Legendre, J. Magnaudet, and G. Mougin, Hydrodynamic interactions between two spherical bubbles rising side by side in a viscous liquid, J. Fluid Mech, vol.497, p.133, 2003.

R. Mei, J. Klausner, and C. J. Lawrence, A note on the history force on a spherical bubble at finite Reynolds number, Phys. Fluids A, vol.6, p.418, 1994.

J. B. Kok, Dynamics of a pair of gas bubbles moving through liquid. Part I. Theory, Eur, J. Mech. B, vol.12, p.515, 1993.

T. Maxworthy, C. Gnann, M. Kurten, and F. Durst, Experiments on the rise of air bubbles in clean viscous liquid, J. Fluid Mech, vol.321, p.421, 1996.