Transport equations for heavy inertial particles in turbulent boundary layers may be derived from an underlying phase-space probability density function (PDF) equation. These equations, however, are unclosed, and the standard closure approach is to use a quasi-Normal approximation (QNA) in which the fourth moments are approximated as behaving as if the velocities were Normally distributed. Except for particles with weak inertia, the QNA leads to large quantitative errors, and is not consistent with the known asymptotic predictions of Sikovsky (Flow Turbulence Combust, vol. 92, 2014, pp. 41-64) for the moments of the PDF in the viscous sublayer. We derive a new closure approximation based on an asymptotic solution to the transport equations ...
Most numerical studies for freely advected inertial particles in turbulent flow, only considering th...
The way particles suspended in a turbulent flow are transported and segregated by turbulent structur...
The distribution of relative velocities between particles provides invaluable information on the rat...
This thesis presents developments in the use of probability density function (PDF) kinetic equations...
The preferential concentration of inertial particles in a turbulent velocity field occurs when the p...
The distribution of inertial particles in turbulent flows is strongly non-homogeneous and is driven ...
An algebraic-closure-based moment method (ACBMM) is developed for unsteady Eulerian particle simulat...
To model unsteady non-isothermal dilute particle-laden turbulent flows,an algebraic-closure-based mo...
We consider the closure problem of representing the higher-order moments (HOMs) in terms of lower- ...
The modification of average settling velocity for inertial particles in turbulence is a striking fea...
In this work probability density function (PDF) models are used as a method for studying the statist...
13 pages, 7 figuresInternational audienceWe present the extension of a modeling technique for Lagran...
International audienceWe present an experimental study on the settling velocity of dense sub-Kolmogo...
Results are presented from a direct numerical simulation of a particle-laden spatially developing tu...
The paper presents numerical simulations of particle-laden fully developed turbulent channel flows p...
Most numerical studies for freely advected inertial particles in turbulent flow, only considering th...
The way particles suspended in a turbulent flow are transported and segregated by turbulent structur...
The distribution of relative velocities between particles provides invaluable information on the rat...
This thesis presents developments in the use of probability density function (PDF) kinetic equations...
The preferential concentration of inertial particles in a turbulent velocity field occurs when the p...
The distribution of inertial particles in turbulent flows is strongly non-homogeneous and is driven ...
An algebraic-closure-based moment method (ACBMM) is developed for unsteady Eulerian particle simulat...
To model unsteady non-isothermal dilute particle-laden turbulent flows,an algebraic-closure-based mo...
We consider the closure problem of representing the higher-order moments (HOMs) in terms of lower- ...
The modification of average settling velocity for inertial particles in turbulence is a striking fea...
In this work probability density function (PDF) models are used as a method for studying the statist...
13 pages, 7 figuresInternational audienceWe present the extension of a modeling technique for Lagran...
International audienceWe present an experimental study on the settling velocity of dense sub-Kolmogo...
Results are presented from a direct numerical simulation of a particle-laden spatially developing tu...
The paper presents numerical simulations of particle-laden fully developed turbulent channel flows p...
Most numerical studies for freely advected inertial particles in turbulent flow, only considering th...
The way particles suspended in a turbulent flow are transported and segregated by turbulent structur...
The distribution of relative velocities between particles provides invaluable information on the rat...