The analysis of effects of the reaction control system jet plumes on aftbody heating of Orion entry capsule is presented. The analysis covered hypersonic continuum part of the entry trajectory. Aerothermal environments at flight conditions were evaluated using Langley Aerothermal Upwind Relaxation Algorithm (LAURA) code and Data Parallel Line Relaxation (DPLR) algorithm code. Results show a marked augmentation of aftbody heating due to roll, yaw and aft pitch thrusters. No significant augmentation is expected due to forward pitch thrusters. Of the conditions surveyed the maximum heat rate on the aftshell is expected when firing a pair of roll thrusters at a maximum deceleration condition.
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机译:分析了反应控制系统射流羽流对猎户座进入舱尾部机身加热的影响。该分析涵盖了进入轨迹的高超音速连续体部分。使用Langley Aerothermal Upwind Relaxation Algorithm(LAURA)代码和Data Parallel Line Relaxation(DPLR)算法代码对飞行条件下的空气热环境进行了评估。结果表明,由于侧倾,偏航和后俯仰推进器,船尾发热明显增加。由于前倾推进器,预计不会有明显的增加。在所调查的条件中,当以最大减速度条件发射一对侧倾推进器时,可以预期在船尾的最大热量率。
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