运载火箭的基地加热和阶段分离

E. Rathakrishnan
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摘要

本文介绍了针对运载火箭基片加热和级段平稳分离问题进行的试验研究结果。在面积较大的环形罩上安装有一个汇聚发散的圆形喷嘴,从该喷嘴喷出1.8马赫的射流,其底部的压力通过在罩上提供通风口来控制。在叶冠上,在不同的方位位置上开了通风口,以更高的压力(pa)夹带周围的气团,以增加底部区域的低压(p b),这是由于喷嘴喷出的射流突然膨胀而形成的吸力造成的大规模漩涡。对不同数量和尺寸的通风口进行了基础压力的测量。该测量是在喷嘴过膨胀的五个水平上进行的,范围从-64%到-58%。研究发现,随着喷口面积的增大,基底压力也随之增大,直至达到一定的极限。此外,发现靠近喷嘴出口的通风口所增加的基压略大于远离喷嘴出口的通风口所增加的基压。基压的增加不仅从基压加热的角度看是有利的,而且从羽流向围壁偏转的角度看也是有利的,可以使连接运载火箭各级的热层均匀熔化,使运载火箭各级顺利分离。
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Base heating and stage separation of launch vehicles
This paper presents the results of the experimental study carried out to address the issues of base heating and smooth separation of the stage of launch vehicles. The pressure at the base of a convergent-divergent circular nozzle, from which Mach 1.8 jet emanates, attached to an annular shroud of larger area is controlled by providing air vents on the shroud. On the shroud, vent holes were made at different azimuthal locations, to entrain the surrounding air mass at a higher pressure, p a, to increase the low-pressure, p b , at the base region, caused by the suction creating large-scale vortices formed owing to the sudden expansion of the jet emerging from the nozzle into the shroud. For different number and size of the vents on the shroud, the base pressure was measured. This measurement was done at five levels of overexpansion of the nozzle in the range from –64% to –58%. It is found that increase in vent area results in increase of base pressure, up to some limiting level of the area. Also, the increase of base pressure for the case of vents closer to the nozzle exit is found to be marginally more than the increase caused by vents at distances away from the nozzle exit. Increase of base pressure can be regarded as an advantage not only from base heating point of view but also from the point of view of deflection of the plume to the shroud wall for uniform melting of the pyro layer bonding the stages of the launch vehicle, leading to a smooth separation of the launch vehicle stages.
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