Add to ORKGDense particle-laden flows play an important role in many environmental processes, including the shaping of rivers and the formation of landslides. Despite decades of study, researchers have not been able to accurately predict the onset of erosion and the amount of sediment transported by flows, due in part to the difficulty in measuring dense particle-laden flows. Highly-resolved numerical simulations, on the other hand, allow us to study the physics of particle-fluid and particle-particle interactions in much more detail.We develop a code to accurately simulate dense, polydisperse, particle-laden flows as well as methods by which to analyze them. The code solves the Navier-Stokes equations for the fluid phase and resolves the flow arou...
ACKNOWLDGEMENT Inspiration for the research described in this paper came from discussions with my co...
Abstract Sediment transport is essential to the source-sink systems; however, the interaction betwee...
We simulate flows involving porous media and homogenous fluid using a single-domain finite-differenc...
Flood risks, channel and bank erosions are directly related to the sediment transport discharge, its...
University of Minnesota Ph.D. dissertation. May 2020. Major: Civil Engineering. Advisor: Kimberly Hi...
We develop a physical and computational model for performing fully coupled, grain-resolved direct nu...
For finite Reynolds numbers the interaction of moving fluids with particles is still only understood...
A model of particle-particle interaction for bed sediment-laden flows, based on impulse equations, i...
Granular flows are particle-laden gravity currents that are ubiquitous in nature in a variety of dif...
We develop a physical and computational model for performing fully coupled, grain-resolved direct nu...
The mesh-free particle method is the latest method in the computational fluid dynamics field. It has...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
In mixed sediment beds, erosion resistance can change relative to that of beds composed of a uniform...
One of the most important aspects in hydraulic engineering is to describe flows over mobile porous m...
Talk: Plenary Abstract: Particulate flows are ubiquitous in environmental, geophysical and engineer...
ACKNOWLDGEMENT Inspiration for the research described in this paper came from discussions with my co...
Abstract Sediment transport is essential to the source-sink systems; however, the interaction betwee...
We simulate flows involving porous media and homogenous fluid using a single-domain finite-differenc...
Flood risks, channel and bank erosions are directly related to the sediment transport discharge, its...
University of Minnesota Ph.D. dissertation. May 2020. Major: Civil Engineering. Advisor: Kimberly Hi...
We develop a physical and computational model for performing fully coupled, grain-resolved direct nu...
For finite Reynolds numbers the interaction of moving fluids with particles is still only understood...
A model of particle-particle interaction for bed sediment-laden flows, based on impulse equations, i...
Granular flows are particle-laden gravity currents that are ubiquitous in nature in a variety of dif...
We develop a physical and computational model for performing fully coupled, grain-resolved direct nu...
The mesh-free particle method is the latest method in the computational fluid dynamics field. It has...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
In mixed sediment beds, erosion resistance can change relative to that of beds composed of a uniform...
One of the most important aspects in hydraulic engineering is to describe flows over mobile porous m...
Talk: Plenary Abstract: Particulate flows are ubiquitous in environmental, geophysical and engineer...
ACKNOWLDGEMENT Inspiration for the research described in this paper came from discussions with my co...
Abstract Sediment transport is essential to the source-sink systems; however, the interaction betwee...
We simulate flows involving porous media and homogenous fluid using a single-domain finite-differenc...