Add to ORKGHeavy inertial particles in spatially and temporally flows can form clusters if their relaxation time is in the order of the dissipation time scale of the flow. This regime, identified by St = O(1), is investigated in this study using analytical tools. We show that the nonlinear variation of segregation versus St can be explained by considering a one-dimensional canonical setting where particles are subjected to an oscillatory velocity gradient that is constant in space. Our analysis shows that the Lyapunov exponent, as a measure of particle segregation, reaches a minimum at St = O(1) and becomes positive at St >> 1 and approaches zero as St goes to 0 or infinity. These predictions, which are corroborated by the numerical results, are direc...
This paper addresses the effect of inter-particle collisions on the segregation of non-settling iner...
We consider particles suspended in a randomly stirred or turbulent fluid. When effects of the inerti...
Results of segregation (de-mixing) of inertial particles in turbulent flows are presented and analys...
Heavy inertial particles in spatially and temporally flows can form clusters if their relaxation tim...
We study motion of small particles in turbulence when the particle relaxation time falls in the rang...
83 pagesThe main focus of this thesis is the dynamics of finite-density inertial particles in an arb...
In many natural phenomena and industrial processes one encounters sus-pensions within turbulent flow...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
Suspensions of small heavy particles in turbulent flows are found in a variety of natural and indust...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
Spatial distributions of heavy particles suspended in an incompressible isotropic and homogeneous tu...
We calculate the Lyapunov exponents for particles suspended in a random three-dimensional flow, conc...
Turbulent fluids laden with small, heavy particles are common in nature. Prominent examples of such ...
This thesis deals with the behaviour of particles in a stochastic model of turbulence. Special atten...
The way particles suspended in a turbulent flow are transported and segregated by turbulent structur...
This paper addresses the effect of inter-particle collisions on the segregation of non-settling iner...
We consider particles suspended in a randomly stirred or turbulent fluid. When effects of the inerti...
Results of segregation (de-mixing) of inertial particles in turbulent flows are presented and analys...
Heavy inertial particles in spatially and temporally flows can form clusters if their relaxation tim...
We study motion of small particles in turbulence when the particle relaxation time falls in the rang...
83 pagesThe main focus of this thesis is the dynamics of finite-density inertial particles in an arb...
In many natural phenomena and industrial processes one encounters sus-pensions within turbulent flow...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
Suspensions of small heavy particles in turbulent flows are found in a variety of natural and indust...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
Spatial distributions of heavy particles suspended in an incompressible isotropic and homogeneous tu...
We calculate the Lyapunov exponents for particles suspended in a random three-dimensional flow, conc...
Turbulent fluids laden with small, heavy particles are common in nature. Prominent examples of such ...
This thesis deals with the behaviour of particles in a stochastic model of turbulence. Special atten...
The way particles suspended in a turbulent flow are transported and segregated by turbulent structur...
This paper addresses the effect of inter-particle collisions on the segregation of non-settling iner...
We consider particles suspended in a randomly stirred or turbulent fluid. When effects of the inerti...
Results of segregation (de-mixing) of inertial particles in turbulent flows are presented and analys...