Volume-of-fluid (VOF) simulations of marangoni bubbles motion in zero gravity
Y Alhendal, A Turan - Finite Volume Method-Powerful Means …, 2012 - books.google.com
This chapter deals with two-phase flows, ie systems of different fluid phases such as gas and
liquid. A typical example of a two-phase flow is a motion of a particle (bubble or droplet) in a
stagnant fluid (liquid or gas). In many branches of engineering it is important to be able to
describe the motion of gas bubbles in a liquid (Krishna & Baten, 1999). In multiphase flow,
the simultaneous flow strongly depends on the gravity force. However, in zero gravity
conditions, buoyancy effects are negligible and as an alternative, three different methods …
liquid. A typical example of a two-phase flow is a motion of a particle (bubble or droplet) in a
stagnant fluid (liquid or gas). In many branches of engineering it is important to be able to
describe the motion of gas bubbles in a liquid (Krishna & Baten, 1999). In multiphase flow,
the simultaneous flow strongly depends on the gravity force. However, in zero gravity
conditions, buoyancy effects are negligible and as an alternative, three different methods …
[引用][C] Volume-of-Fluid (VOF) Simulations of Marangoni Bubbles Motion in Zero Gravity, Finite Volume Method
A Turan, Y Alhendal - Finite Volume Method, 2012 - research.manchester.ac.uk
Volume-of-Fluid (VOF) Simulations of Marangoni Bubbles Motion in Zero Gravity, Finite
Volume Method — Research Explorer The University of Manchester … Volume-of-Fluid (VOF)
Simulations of Marangoni Bubbles Motion in Zero Gravity, Finite Volume Method …
Volume Method — Research Explorer The University of Manchester … Volume-of-Fluid (VOF)
Simulations of Marangoni Bubbles Motion in Zero Gravity, Finite Volume Method …
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