Add to ORKGDense high speed non-compacted multiphase flows exist in variable phase turbines, explosions, and ejector nozzles, where the particle volume fraction is in the range 0.001<α_d<0.5. A canonical problem that can be used to study modeling issues related to these types of flows is a shock wave impacting a planar particle cloud. Thus far, prior work has modeled the flow using a 1-D volume-averaged point particle approach and developed momentum and energy coupling terms that reproduce accurately the trajectory of particles in the experiments. Although these early results are promising, it is appropriate to question whether all aspects of the experimental flow can be captured using a one-dimensional model that is traditionally only used for dilute...
Homogeneous turbulence generated by the motion of particles in dispersed multiphase flows was studie...
Particle–gas two-phase flows show significantly different behaviors compared to single gas flow thro...
The objective of the present research was to extend the Direct Numerical Simulation (DNS) approach t...
Dense high speed non-compacted multiphase flows exist in variable phase turbines, explosions, and ej...
Dense compressible multiphase flows exist in variable phase turbines, explosions, and fluidized beds...
International audienceThe effect of shock waves on the dispersion characteristics of a particle clou...
This work aims to study the interaction of a shock wave with a cloud of particles to quantify flow u...
We investigate the shock-induced flow through random particle arrays using particle-resolved Large E...
High-speed particle-laden flows are studied through a combination of high-order Eulerian Lagrangian ...
In this paper, the two-dimensional particle-laden flow developments are studied with bronze particle...
Particulate flows have been largely studied under the simplifying assumptions of one-way coupling re...
In this paper, the two-dimensional particle-laden flow developments are studied with bronze particle...
Graduation date: 2011Particle-laden turbulent flows are of great importance in many industrial\ud ap...
Particle-laden ows are of great interest since they occur in a variety of industrial applications, s...
To challenge one of the major problems for multiphase flow simulations, namely computational costs, ...
Homogeneous turbulence generated by the motion of particles in dispersed multiphase flows was studie...
Particle–gas two-phase flows show significantly different behaviors compared to single gas flow thro...
The objective of the present research was to extend the Direct Numerical Simulation (DNS) approach t...
Dense high speed non-compacted multiphase flows exist in variable phase turbines, explosions, and ej...
Dense compressible multiphase flows exist in variable phase turbines, explosions, and fluidized beds...
International audienceThe effect of shock waves on the dispersion characteristics of a particle clou...
This work aims to study the interaction of a shock wave with a cloud of particles to quantify flow u...
We investigate the shock-induced flow through random particle arrays using particle-resolved Large E...
High-speed particle-laden flows are studied through a combination of high-order Eulerian Lagrangian ...
In this paper, the two-dimensional particle-laden flow developments are studied with bronze particle...
Particulate flows have been largely studied under the simplifying assumptions of one-way coupling re...
In this paper, the two-dimensional particle-laden flow developments are studied with bronze particle...
Graduation date: 2011Particle-laden turbulent flows are of great importance in many industrial\ud ap...
Particle-laden ows are of great interest since they occur in a variety of industrial applications, s...
To challenge one of the major problems for multiphase flow simulations, namely computational costs, ...
Homogeneous turbulence generated by the motion of particles in dispersed multiphase flows was studie...
Particle–gas two-phase flows show significantly different behaviors compared to single gas flow thro...
The objective of the present research was to extend the Direct Numerical Simulation (DNS) approach t...