关键词: 液体推进剂火箭发动机;并联火箭发动机;热幅射;温度分布;数值分析

Abstract: The physical model and mathematical control equations of heat transfer for parallel four thrust chambers with all-radiation cooling were presented Heat transfer characteristics connecting with this arrangment were analyzed The result shows that the circumferential temperature change caused by the radiation between chambers is mostly decided by the dimensionless distance L/D and the single engine wall temperature T 0 The location that maximal circumferential temperature appears varies from the direction angle Ψ =0° at throat to Ψ =±45° at nozzle exit and accordingly the temperature distribution varies from single peak to two peaks In addition,the analysis of the system with only one pair of operating thrust chambers was performed The simulation test on the ground validated the numerical analysis

Key words: Liquid propellant rocket engines;Rocket engine cluster;Thermal radiation;Temperature distribution;Numerical analysis