References
- Magnaudet J, Eames I: ‘The motion of high Reynolds number bubbles in inhomogeneous flows’, Ann. Rev. Flid Mech., 2000, 32, 659–708.
- van Wijngaarden L, Veldhuis C: ‘On hydrodynamical properties of ellipsoidal bubbles’, Acta Mech., 2008, 201, 37–46.
- de Vries J, Lohse D: ‘Induced bubble shape oscillations and their impact on the rise velocity’, Eur. Phys. J. B, 2002, 29B, 503–509.
- Yang B, Prosperetti A, Takagi S: ‘The transient rise of a bubble subject to shape or volume changes’, Phys. Fluids, 2003, 15, 2640–2648.
- Batchelor GK: ‘An introduction to fluid dynamics’; 2000, Cambridge, Cambridge University Press.
- Moore DW: ‘The boundary layer on a spherical gas bubble’, J. Fluid Mech., 1963, 16, 161–176.
- Tanguy S, Berlemont A: ‘Application of a level set method for simulation of droplet collisions’, Int. J. Multiph. Flow, 2005, 31, 1015–1035.
- Tanguy S, Menard T, Berlemont A: ‘A level set method for vaporizing two-phase flows’, J. Comput. Phys., 2007, 221, 837–853.
- Bonometti T, Magnaudet J: ‘An interface capturing method for incompressible two-phase flows: validation and application to bubble dynamics’, Int. J. Multiph. Flow, 2007, 33, (2), 109–133.
- Dupont J.-B, Legendre D: ‘Numerical simulation of static and sliding drop with contact angle hysteresis’, J. Comput. Phys., 2010, 229, 2453–2478,.
- Abadie T, Aubin J, Legendre D, Xuereb C: ‘Hydrodynamics of gas-liquid taylor flow in rectangular microchannels’, Microfluid. Nanofluid., 2012, 12, 355–369.
- Doinikov AA: ‘Translational motion of a bubble undergoing shape oscillations’, J. Fluid Mech., 2004, 501, 1–24.
- Prosperetti A: ‘Free oscillations of drops and bubbles: the initial-value problem’, J. Fluid Mech., 1980, 100, 333–347.
- Subramanyam SV: ‘A note on the damping and oscillations of a fluid drop moving in another fluid’, J. Fluid Mech., 1969, 37, 715–725.
- Legendre D, Borée J, Magnaudet J: ‘Thermal and dynamic evolution of a spherical bubble moving steadily in a superheated or subcooled liquid’, Phys. Fluids, 1998, 10, 1256–1272.