Title :
Investigation of fast proceeding thermodynamic, physical and chemical processes in devices of pulsed action
Author_Institution :
National Research Tomsk Polytechnic University, Tomsk, Russia
Abstract :
Numerical simulation of flow non-stationary turbulent structure and heat- and mass transfer in devices of pulsed action at the expansion conditions of perfect gases chemically reacting mixture is presented. In mathematical model the thermo physical properties variability, thermal degradation of wall material, turbulence and chemical reactions interference are allowed. The detailed calculations of local dynamic and scalar parameters in fields behind piston are executed with attraction of statistical turbulent models the second order. Influence of chemical reactions, turbulence, non-stationary on friction and heat- and mass transfer within the scope of conjugate processes is determined. Criteria relationships for calculation of integrated parameters of friction and heat transfer are given.
Keywords :
chemically reactive flow; confined flow; flow simulation; friction; gas mixtures; heat transfer; mass transfer; numerical analysis; thermochemistry; turbulence; chemical reaction effects; chemically reacting mixture; conjugate processes; fast chemical processes; fast physical processes; fast thermodynamic processes; flow numerical simulation; friction; heat transfer; local dynamic parameters; local scalar parameters; mass transfer; nonstationary effects; nonstationary turbulent structure; perfect gas expansion conditions; pulsed action devices; statistical turbulent models; thermophysical properties; turbulence effects; wall material thermal degradation; Acceleration; Chemicals; Equations; Gases; Heat transfer; Mathematical model; Pistons; friction; heat- and mass transfer; modelling; near-wall processes; turbulent structure;
Conference_Titel :
Strategic Technology (IFOST), 2012 7th International Forum on
Conference_Location :
Tomsk
Print_ISBN :
978-1-4673-1772-6
DOI :
10.1109/IFOST.2012.6357787
