Aeroacoustics is a critical research field that studies sound generated by turbulent flows interacting with solid ...
Aeroacoustics studies the creation and spread of sound from unsteady flow with solid structures. Computational ...
To reduce the C02 footprint of the current energy and transport sector, hydrogen has become one of the most promising ...
Since the beginning of the past century people are interested in the mechanisms which produce the sound caused by a drop ...
In recent years studying the field of aeroacoustics has been received special attention from researches for its ...
Empirical performance modeling is a proven instrument to analyze the scaling behavior of HPC applications. Using a set ...
Aerodynamic sound contributes significantly to the noise emission of high-speed applications such as trains, aircraft ...
Among the major sources of energy supply, pulverized coal combustion (PCC) will remain one most dominant contributors in ...
Identifying scalability bugs in parallel applications is a vital but also laborious and expensive task. Empirical ...
The accurate prediction of combustion processes requires to compute the flow, the concentration, and the chemical ...
Since nearly 86% of the world wide energy demand is obtained through combustion, it is necessary to improve related ...
The objective to reduce the emission of the greenhouse gas CO2 has a high priority in today’s energy supply. However, in ...
The ExaFSA project aims to combine the two dominant trends in engineering simulations: multiphysics and high-performance ...
The separation of CO2 in oxy-coal combustions is facilitated through firing coal in oxygen (O2) enriched recirculated ...
The turbulent flow around blunt bodies induces aeroacoustic sources due to the interaction of the fluid with geometrical ...