Finding a quantitative description of the rate of collisions between small particles suspended in mixing flows is a long-standing problem. Here we investigate the validity of a parameterisation of the collision rate for identical particles subject to Stokes force, based on results for relative velocities of heavy particles that were recently obtained within a statistical model for the dynamics of turbulent aerosols. This model represents the turbulent velocity fluctuations by Gaussian random functions. We find that the parameterisation gives quantitatively good results in the limit where the “ghost-particle approximation” applies. The collision rate is a sum of two contributions due to “caustics” and to “clustering”. Within the statistical ...
We discuss the relative speeds ΔV of inertial particles suspended in a highly turbulent gas when the...
The statistics of velocity differences between pairs of heavy inertial point particles suspended in ...
This thesis deals with the behaviour of particles in a stochastic model of turbulence. Special atten...
This thesis is devoted to the mechanisms leading to strong collision rates of inertial particles in ...
Collisions of particles suspended in fluids in macroscopic motion is a subject with long history goi...
Heavy particles suspended in turbulent fluid flows, so-called turbulent aerosols, are common in Natu...
International audienceIn turbulent suspensions, collision rates determine how rapidly particles coal...
The use of simplified models of turbulent flows provides an appealing possibility to study the colli...
The use of simplified models of turbulent flows provides an appealing possibility to study the colli...
We consider collisions of particles advected in a fluid. As already pointed out by Smoluchowski (191...
The use of simplified models of turbulent flows provides an appealing possibility to study the colli...
The distribution of relative velocities between particles provides invaluable information on the rat...
In nature, suspensions of small particles in fluids are common. An important example are rain drople...
Annu. Rev. Fluid Mech. 56: In pressInternational audienceWhen very small particles are suspended in ...
The preferential concentration of inertial particles in a turbulent velocity field occurs when the p...
We discuss the relative speeds ΔV of inertial particles suspended in a highly turbulent gas when the...
The statistics of velocity differences between pairs of heavy inertial point particles suspended in ...
This thesis deals with the behaviour of particles in a stochastic model of turbulence. Special atten...
This thesis is devoted to the mechanisms leading to strong collision rates of inertial particles in ...
Collisions of particles suspended in fluids in macroscopic motion is a subject with long history goi...
Heavy particles suspended in turbulent fluid flows, so-called turbulent aerosols, are common in Natu...
International audienceIn turbulent suspensions, collision rates determine how rapidly particles coal...
The use of simplified models of turbulent flows provides an appealing possibility to study the colli...
The use of simplified models of turbulent flows provides an appealing possibility to study the colli...
We consider collisions of particles advected in a fluid. As already pointed out by Smoluchowski (191...
The use of simplified models of turbulent flows provides an appealing possibility to study the colli...
The distribution of relative velocities between particles provides invaluable information on the rat...
In nature, suspensions of small particles in fluids are common. An important example are rain drople...
Annu. Rev. Fluid Mech. 56: In pressInternational audienceWhen very small particles are suspended in ...
The preferential concentration of inertial particles in a turbulent velocity field occurs when the p...
We discuss the relative speeds ΔV of inertial particles suspended in a highly turbulent gas when the...
The statistics of velocity differences between pairs of heavy inertial point particles suspended in ...
This thesis deals with the behaviour of particles in a stochastic model of turbulence. Special atten...