The paper provides an overview of the challenges involved in the computation of flows with interactions between turbulence, strong shockwaves, and sharp density interfaces. The prediction and physics of such flows is the focus of an ongoing project in the Scientific Discovery through Advanced Computing (SciDAC) program. While the project is fundamental in nature, there are many important potential applications of scientific and engineering interest ranging from inertial confinement fusion to exploding supernovae. The essential challenges will be discussed, and some representative numerical results that highlight these challenges will be shown. In addition, the overall approach taken in this project will be outlined
Computational Fluid Dynamics (CFD) numerical simulations of low-density shock-wave interactions for ...
The motivation for study of shock-induced vortical flows is the problem of achieving rapid and effic...
The paper presents results of calculations for 2-D supersonic turbulent compression corner flows. Th...
The paper provides an overview of the challenges involved in the computation of flows with interacti...
The paper provides an overview of the challenges involved in the computation of flows with interacti...
In this report, we present the research efforts made by our group at UCLA in the SciDAC project ÃÂ...
The target of this SciDAC Science Application was to develop a new capability based on high-order an...
The interaction of turbulence with shock waves, while very common in nature and engineered systems, ...
The interaction of turbulence with shock waves, while very common in nature and engineered systems, ...
Numerical computations are presented which illustrate and test various effects pertinent to the ampl...
The computational challenge of predicting shock-turbulence interactions stems from the fundamentally...
A Chebyshev-Fourier discretization with shock fitting is used to solve the unsteady Euler equations....
In this work, we use numerical simulation and linear inviscid theory to study the thermodynamic fiel...
The interaction of turbulence with a shock wave is a fundamental prob-lem in fluid mechanics relevan...
During the past five years, numerous pioneering archival publications have appeared that have presen...
Computational Fluid Dynamics (CFD) numerical simulations of low-density shock-wave interactions for ...
The motivation for study of shock-induced vortical flows is the problem of achieving rapid and effic...
The paper presents results of calculations for 2-D supersonic turbulent compression corner flows. Th...
The paper provides an overview of the challenges involved in the computation of flows with interacti...
The paper provides an overview of the challenges involved in the computation of flows with interacti...
In this report, we present the research efforts made by our group at UCLA in the SciDAC project ÃÂ...
The target of this SciDAC Science Application was to develop a new capability based on high-order an...
The interaction of turbulence with shock waves, while very common in nature and engineered systems, ...
The interaction of turbulence with shock waves, while very common in nature and engineered systems, ...
Numerical computations are presented which illustrate and test various effects pertinent to the ampl...
The computational challenge of predicting shock-turbulence interactions stems from the fundamentally...
A Chebyshev-Fourier discretization with shock fitting is used to solve the unsteady Euler equations....
In this work, we use numerical simulation and linear inviscid theory to study the thermodynamic fiel...
The interaction of turbulence with a shock wave is a fundamental prob-lem in fluid mechanics relevan...
During the past five years, numerous pioneering archival publications have appeared that have presen...
Computational Fluid Dynamics (CFD) numerical simulations of low-density shock-wave interactions for ...
The motivation for study of shock-induced vortical flows is the problem of achieving rapid and effic...
The paper presents results of calculations for 2-D supersonic turbulent compression corner flows. Th...
Add to ORKG