It is important to understand in which circumstances the suspension of particles leads to significant velocity enhancements in turbulent flows. Assuming the validity of the Kolmogorov-Barenblatt model for turbulent flows loaded by small particles, we show that this occurs in the regime of limiting saturation, when the flow suspends as many particles as the given external conditions allow. In addition we consider the consequences of the presence of arbitrarily small particles. We discuss in detail the application of the model to suspended droplets in hurricanes above the ocean
We consider collisions of particles advected in a fluid. As already pointed out by Smoluchowski (191...
We discuss relative velocities and the collision rate of small particles suspended in a highly turbu...
Particles suspended in turbulent fluid flows are common in Nature and in technological applications....
It is important to understand in which circumstances the suspension of particles leads to significa...
The features of turbulence modulation produced by a heavy lo aded suspension of small solid partic...
Heavy particles suspended in turbulent fluid flows, so-called turbulent aerosols, are common in Natu...
In many natural phenomena and industrial processes one encounters sus-pensions within turbulent flow...
The inability to capture the physics of solid-particle suspension in turbulent fluids in simple form...
In [Comm. Appl. Math. Comput. Sci., 4(2009), pp. 153-175], Barenblatt presents a model for partial l...
The macroscopic behavior of dense suspensions of neutrally buoyant spheres in turbulent plane channe...
In nature, suspensions of small particles in fluids are common. An important example are rain drople...
Understanding the spatial distribution of finite-size massive particles, such as heavy impurities, d...
In [Comm. Appl. Math. Comput. Sci., 4(2009), pp. 153-175], Barenblatt presents a model for partial l...
Suspended particles can alter the properties of fluids and in particular also affect the transition ...
We investigate different asymptotic regimes for Vlasov equations modeling the evolution of a cloud o...
We consider collisions of particles advected in a fluid. As already pointed out by Smoluchowski (191...
We discuss relative velocities and the collision rate of small particles suspended in a highly turbu...
Particles suspended in turbulent fluid flows are common in Nature and in technological applications....
It is important to understand in which circumstances the suspension of particles leads to significa...
The features of turbulence modulation produced by a heavy lo aded suspension of small solid partic...
Heavy particles suspended in turbulent fluid flows, so-called turbulent aerosols, are common in Natu...
In many natural phenomena and industrial processes one encounters sus-pensions within turbulent flow...
The inability to capture the physics of solid-particle suspension in turbulent fluids in simple form...
In [Comm. Appl. Math. Comput. Sci., 4(2009), pp. 153-175], Barenblatt presents a model for partial l...
The macroscopic behavior of dense suspensions of neutrally buoyant spheres in turbulent plane channe...
In nature, suspensions of small particles in fluids are common. An important example are rain drople...
Understanding the spatial distribution of finite-size massive particles, such as heavy impurities, d...
In [Comm. Appl. Math. Comput. Sci., 4(2009), pp. 153-175], Barenblatt presents a model for partial l...
Suspended particles can alter the properties of fluids and in particular also affect the transition ...
We investigate different asymptotic regimes for Vlasov equations modeling the evolution of a cloud o...
We consider collisions of particles advected in a fluid. As already pointed out by Smoluchowski (191...
We discuss relative velocities and the collision rate of small particles suspended in a highly turbu...
Particles suspended in turbulent fluid flows are common in Nature and in technological applications....