Direct numerical simulation of heat transfer of round subsonic impinging jets at high Reynolds number etc15 Tracking Number 271Presentation: Session: Jets and Wakes 1 Room: Room E Session start: 10:30 Tue 25 Aug 2015 Robert Wilke robert.wilke@tnt.tu-berlin.de Affifliation: Institute of Fluid Dynamics and Technical Acoustics, Berlin Institute of Technology, Germany Joern Sesterhenn joern.sesterhenn@tu-berlin.de Affifliation: Institute of Fluid Dynamics and Technical Acoustics, Berlin Institute of Technology, Germany Topics: - Vortex dynamics and structure formation, - Jets and wakes Abstract: Impinging jets provide an effective cooling method for various applications such as the cooling of aircraft turbine blades. The latest generation of high performance computers allows us to investigate those at practically relevant Reynolds numbers Re by means of direct numerical simulations. In order to analyse the heat transfer of a confined round impinging jet, two direct numerical simulations are performed at Re=3300 and Re=8000 using a grid of 512 x 512 x 512 respectively 1024 x 1024 x 1024 points. Each configuration is fully turbulent. The first one features two annular regions with local maxima of heat transfer at the impinging plate. These effects are related to high wall-normal turbulent heat fluxes caused by vortical structures of the turbulent flow field. The second simultion is ongoing. Its results will also be presented on the conference. |