关键词: 液体推进剂火箭发动机;推力燃烧室;发汗冷却;传热;数值仿真

Abstract: Transpiration cooling of a liquid rocket thruster chamber was investigated numerically using a two dimensional local non thermal equilibrium model.An orthogonal curvilinear coordinate was used in the numerical calculations.The sharp varistion of the thermophysical properties of the coolant(hydrogen)with temperature and pressure and the longitudinal conduction in the solid wall were included in the calculations.Is is shown that the temperature gradient near the hot gas surface is very large and the maximum temperature difference between the coolant and solid material is located at the hot gas surface of the porous wall.As the thermal conductivity of the porous wall material increases the wall temperature and the temperature gradient decreases.The maximum temperature of the wall decreases with increasing coolant flow.The blowing ratio(the ratio of the coolant flow rate for transpiration cooling to the total flow rate)is about 2%.

Key words: Liquid propellant rocket engine;Thrust chamber;Sweat cooling;Heat transfer;Numerical simulation