Title :
Analytical prediction of heat transfer on fully catalytic surface in 2D and 3D hypersonic flows
Author_Institution :
Inst. of Mech., Lomonosov Moscow State Univ., Moscow, Russia
Abstract :
The simple analytical solutions for heat flux normalized by the value at a stagnation point are obtained at moderate and high Reynolds number for three dimensional (3D) hypersonic flows over blunt bodies. It is shown by comparing with numerical solutions that found formulas make possible to predict heat transfer on the fully catalytic surface of blunt bodies in 2D and 3D chemically reacting gas flows.
Keywords :
catalysis; chemically reactive flow; external flows; heat transfer; hypersonic flow; stagnation flow; 2D chemically reacting gas flow; 2D hypersonic flow; 3D chemically reacting gas flow; 3D hypersonic flow; Reynolds number; analytical prediction; blunt bodies; fully catalytic surface; heat flux; heat transfer; stagnation point; Approximation methods; Fluid flow; Geometry; Heat transfer; Heating; Mathematical model; Three-dimensional displays;
Conference_Titel :
Mechanics - Seventh Polyakhov's Reading, 2015 International Conference on
Conference_Location :
Saint Petersburg
DOI :
10.1109/POLYAKHOV.2015.7106718
