Add to ORKGThe primary objective of the research is to perform ground-based analysis and experiments on the interaction and coalescence of drops (or bubbles) leading to macroscopic phase separation. Migration of the drops occurs as a result of the individual and collective action of gravity and thermocapillary effects. Larger drops migrate faster than smaller ones, leading to the possibility of collisions and coalescence. Coalescence increases the rate of macroscopic phase separation, since the result is larger drops with higher migration rates. It is hoped that the understanding gained will lead to the design of microgravity experiments to further elucidate the mechanisms governing coalescence and phase separation
Drop coalescence is an interfacial fluid dynamics phenomenon in daily life. When an initial contact ...
The coalescence phenomenon of drops in liquid/liquid systems is reviewed with particular focus on it...
Phase separation has important implications for the mechanical, thermal, and electrical properties o...
Ground-based modeling and experiments have been performed on the interaction and coalescence of drop...
The overall objective of this research is to develop models to predict drop-size-distribution evolut...
Phase transition is a ubiquitous phenomenon in nature, science and technology. In general, the phase...
Sedimentation and phase separation is a well known occurrence in monotectic or miscibility gap alloy...
Results from ground-based theoretical and experimental research on the motion of bubbles and drops i...
Observation of microgravity solidification processes indicates that outside of sedimentation, at lea...
Non-coalescence of two bodies of the same liquid and the suppression of contact between liquid drops...
After quenching a partially miscible, initially homogeneous, critical liquid mixture to a temperatur...
Space experiment on bubble thermocapillary migration was performed on board the Chinese 22nd recover...
Results on bubble coalescences from the space experiment of thermocapillary bubble migration conduct...
International audienceThe behavior of gases and liquids during a phase transition is severely affect...
The design of gravity settlers for the separation of liquid-liquid dispersions requires experimental...
Drop coalescence is an interfacial fluid dynamics phenomenon in daily life. When an initial contact ...
The coalescence phenomenon of drops in liquid/liquid systems is reviewed with particular focus on it...
Phase separation has important implications for the mechanical, thermal, and electrical properties o...
Ground-based modeling and experiments have been performed on the interaction and coalescence of drop...
The overall objective of this research is to develop models to predict drop-size-distribution evolut...
Phase transition is a ubiquitous phenomenon in nature, science and technology. In general, the phase...
Sedimentation and phase separation is a well known occurrence in monotectic or miscibility gap alloy...
Results from ground-based theoretical and experimental research on the motion of bubbles and drops i...
Observation of microgravity solidification processes indicates that outside of sedimentation, at lea...
Non-coalescence of two bodies of the same liquid and the suppression of contact between liquid drops...
After quenching a partially miscible, initially homogeneous, critical liquid mixture to a temperatur...
Space experiment on bubble thermocapillary migration was performed on board the Chinese 22nd recover...
Results on bubble coalescences from the space experiment of thermocapillary bubble migration conduct...
International audienceThe behavior of gases and liquids during a phase transition is severely affect...
The design of gravity settlers for the separation of liquid-liquid dispersions requires experimental...
Drop coalescence is an interfacial fluid dynamics phenomenon in daily life. When an initial contact ...
The coalescence phenomenon of drops in liquid/liquid systems is reviewed with particular focus on it...
Phase separation has important implications for the mechanical, thermal, and electrical properties o...