Autor/in Herwig, Heinz Jin, Yan Kuznetsov, Andrey V. 5 Uth, Marc-Florian 5 Geng, L. P. 1 Kiš, P. 1 Uth, M. F. 1 alle zeigenListe einklappen
Can pulsation unsteadiness increase the convective heat transfer in a pipe flow? A systematic study Geng, L. P. Jin, Yan Herwig, Heinz 2020 - TUHH Open Research
A direct numerical simulation study on the possibility of macroscopic turbulence in porous media: Effects of different solid matrix geometries, solid boundaries, and two porosity scales Uth, M. F. Jin, Yan Kuznetsov, Andrey V. Herwig, Heinz 2016 - TUHH Open Research
Structure of a turbulent flow through plane channels with smooth and rough walls : an analysis based on high resolution DNS results Jin, Yan Uth, Marc-Florian Herwig, Heinz 2015 - TUHH Open Research
Turbulent flow in rough wall channels : validation of RANS models Jin, Yan Herwig, Heinz 2015 - TUHH Open Research
Turbulent flow in the micro structures of porous media Herwig, Heinz Jin, Yan Uth, Marc-Florian Kuznetsov, Andrey V. 2015 - TUHH Open Research
The physics of stripe patterns in turbulent channel flow determined by DNS results Kiš, P. Jin, Yan Herwig, Heinz 2015 - TUHH Open Research
Turbulente Strömungen durch poröse Materialien : wie sehen die aus? Jin, Yan Uth, Marc-Florian Kuznetsov, Andrey V. Herwig, Heinz 2015 - TUHH Open Research
Numerical investigation of the possibility of macroscopic turbulence in porous media : a direct numerical simulation study Jin, Yan Uth, Marc-Florian Kuznetsov, Andrey V. Herwig, Heinz 2015 - TUHH Open Research
Turbulence in porous media : some fundamental questions addressed by DNS solutions Uth, Marc-Florian Jin, Yan Kuznetsov, Andrey V. Herwig, Heinz 2014 - TUHH Open Research
Effect of shark skin textures on entropy generation for turbulent channel flow and heat transfer problems Jin, Yan Herwig, Heinz 2014 - TUHH Open Research
From single obstacles to wall roughness : some fundamental investigations based on DNS results for turbulent channel flow Jin, Yan Herwig, Heinz 2012 - TUHH Open Research
