关键词: 气固耦合算法+;液体推进剂火箭发动机;推力燃烧室;再生冷却;通道;湍流模型

Abstract: Turbulent fluid flow and heat transfer in a regenerative-cooling channel of H₂/O₂ liquid rocket engine were numerically investigated by solving three-dimensional elliptical Navier-Stokes equations and the gas-solid coupled arithmetic was adopted.The coolant was hydrogen,whose thermal properties such as thermal conductivity,density,dynamical viscidity,etc were varied with both temperature and pressure.Large Eddy Simulation and standard k-ε turbulent model were used to simulate temperature and velocity distribution in fluid and solid region of regenerative-cooling channel.The simulation results of two turbulent models were compared with experiment data at different calculation grids.It is shown that under the same grids,the result obtained by standard k-ε turbulent model agrees better with the experimental data than that by Large Eddy Simulation（LES）,which is also satisfied with engineering precision.With the increase of calculation grids,the calculation precision of LES is gradually enhanced.

Key words: Gas-solid coupled arithmetic;Liquid propellant rocket engine;Thrust chamber;Regenerative cooling;Channel;Turbulence model