We consider the statistical description of the break-up of an immiscible fluid lump immersed into a fully developed turbulent flow. We focus on systems where there is no relative velocity between the continuous and dispersed phases. In this case, particle fragmentation is caused only by turbulent velocity fluctuations. The most relevant models proposed for the particle break-up frequency and for the shape of the daughter particle size distribution are reviewed. Their predictions are compared to recent experimental data, obtained for the break-up of an air cavity immersed into a high Reynolds number, turbulent water jet. Models based on purely kinematic arguments show the best agreement with the experimental data
© 2017, Budapest University of Technology and Economics. All rights reserved. Turbulent flows of emu...
Fluid particle break-up and coalescence are important phenomena in a number of industrial processes....
A systematic technique is developed for studying particle dynamics as induced by a turbulent liquid ...
Based on energy principles, we propose a statistical model to describe the bubble size probability d...
The final bubble size distribution, resulting from the break-up of an air jet injected into the cent...
Thesis (Ph.D.)--University of Washington, 2015Breakup of a dispersed phase in a turbulent flow is a ...
A model for breakup of fluid particles in turbulent flows is presented in this article. In the new m...
A model is developed for predicting the outcome of breakup of a fluid particle (bubble or drop), whi...
The thesis investigates the dynamics of fluid particles in turbulent flows, which plays an important...
In this study, the role of turbulence on the formulation of breakup kernels for fluid particles in d...
This paper deals with drop and bubble break-up modelling in turbulent flows. We consider the case wh...
We present results from an individual particle based model for the collision, coagulation and fragme...
Dynamics of bubble and drop breakup in turbulent flows have been studied in detail, using a high-spe...
The breakup of inertial, solid aggregates in an incompressible, homogeneous and isotropic three-dime...
Liquid-liquid flows are common in process industries, particularly in turbulent systems. These syste...
© 2017, Budapest University of Technology and Economics. All rights reserved. Turbulent flows of emu...
Fluid particle break-up and coalescence are important phenomena in a number of industrial processes....
A systematic technique is developed for studying particle dynamics as induced by a turbulent liquid ...
Based on energy principles, we propose a statistical model to describe the bubble size probability d...
The final bubble size distribution, resulting from the break-up of an air jet injected into the cent...
Thesis (Ph.D.)--University of Washington, 2015Breakup of a dispersed phase in a turbulent flow is a ...
A model for breakup of fluid particles in turbulent flows is presented in this article. In the new m...
A model is developed for predicting the outcome of breakup of a fluid particle (bubble or drop), whi...
The thesis investigates the dynamics of fluid particles in turbulent flows, which plays an important...
In this study, the role of turbulence on the formulation of breakup kernels for fluid particles in d...
This paper deals with drop and bubble break-up modelling in turbulent flows. We consider the case wh...
We present results from an individual particle based model for the collision, coagulation and fragme...
Dynamics of bubble and drop breakup in turbulent flows have been studied in detail, using a high-spe...
The breakup of inertial, solid aggregates in an incompressible, homogeneous and isotropic three-dime...
Liquid-liquid flows are common in process industries, particularly in turbulent systems. These syste...
© 2017, Budapest University of Technology and Economics. All rights reserved. Turbulent flows of emu...
Fluid particle break-up and coalescence are important phenomena in a number of industrial processes....
A systematic technique is developed for studying particle dynamics as induced by a turbulent liquid ...