Gas dissolution process of spherical rising gas bubbles

The rising velocity of spherical capped bubbles in water and in PVA solutions, showed the viscosity to have little influence below 2P. Solutions with high viscosities caused some retardation especially with smaller bubbles. Measurements of the mass transfer coefficient during the absorption of CO\*

The absorption rate of carbon dioxide from single rising bubbles of equivalent diameier 0.842 cm in water has been measured. The results have been compared with a theoretical equation for absorption at the upper surface of a spherical cap bubble. The absorption rates in tap water are about 50 per c

A variational approach, based upon the principle of minimum total energy, is used to study the interfacial stability of small ellipsoidal gas bubbles moving upwards in liquids of small viscosity because of their buoyancy. Viscous and inertia effects are neglected, while the effects of gravity are ta