Abstract: This presentation will highlight recent progress and challenges in development of the Large Eddy Simulation (LES) methodology for treatment of turbulent reacting flow processes in propulsion ...

Large eddy simulation (LES) has emerged as a pivotal computational tool in understanding and predicting the complex phenomena inherent in combustion dynamics. By resolving the larger turbulent ...

Abstract: We explore the potential for new reduced basis representations within current state-of-the-art Large-Eddy Simulation (LES) frameworks to more accurately predict key resolved-scale dynamics ...

Large eddy simulation (LES) has emerged as an indispensable numerical technique for elucidating the complex phenomena inherent in combustion and pool fires. By resolving the larger turbulent ...

The present paper provides an up-to-date survey of the use of large eddy simulation (LES) and sequels for engineering applications related to aerodynamics. Most recent landmark achievements are ...

Wind turbines may seem innocuous enough, but they have the potential to reshape the air birds fly through. In a recent ...

Supervisors: Professor Lin Ma, Professor Mohamed Pourkashanian and Professor Derek B Ingham. Computational wind engineering has been developing rapidly over the last couple of decades. Among the ...

Supervisors: Professor Lin Ma, Professor Mohamed Pourkashanian and Professor Derek B Ingham. Wind farms are large regions usually outside cities and include a number of wind turbines. An accurate ...

Using HLRS’s Hawk supercomputer, University of Stuttgart scientists have for the first time produced high-resolution simulation data characterizing the transition from low to high Reynolds numbers in ...

Turbulence modeling is one of the main sources of uncertainty in CFD simulations of technical flows. This is not surprising, as turbulence is the most complex phenomenon in classical physics.