翅片可重复使用火箭周转过程空气动力学计算研究

Takuya Aogaki, K. Kitamura, S. Nonaka
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引用次数: 0

摘要

研制完全可重复使用的垂直起降(VTVL)火箭对于降低航天运输成本是必不可少的。然而,这种飞行器存在许多技术问题,如返航时的翻转机动,其中俯仰力矩起着关键作用。众所周知,气动特性可以通过安装气动装置来控制,但气动特性与流场之间的关系尚未得到探讨。为了利用计算流体动力学(CFD)澄清这种关系,我们研究了这些流场和空气动力学特性,在可重复使用的火箭的前端部分安装了这些装置(鳍)。我们发现涡流在气动装置的下游形成。对于0到90度的迎角(其中翼位于上游部分),这些涡流显著影响了火箭的表面压力并增加了俯仰力矩。另一方面,对于90 ~ 180度的aoa(翼在下游),这些涡对表面压力的影响可以忽略不计,只有在翼面附近形成的涡才会增加俯仰力矩。
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Computational Study on Finned Reusable Rocket Aerodynamics during Turnover
The development of a fully reusable vertical-takeoff-and-vertical-landing (VTVL) rocket is indispensable for reducing space transportation costs. However, there are many technical issues associated with such vehicles, such as turnover maneuvers during return flight where the pitching moment plays a key role. It is known that aerodynamic characteristics can be controlled by installing aerodynamic devices, but the relationship between the aerodynamic characteristics and the flowfields has not been explored. To clarify this relationship using computational fluid dynamics (CFD), we investigated these flowfields and aerodynamic characteristics, in the case where we install such devices (fins) in the nose part of a reusable rocket. We found that vortices form downstream of the aerodynamic devices. For angles of attack between 0 and 90 degrees (in which the fins are located in the upstream portion), these vortices significantly affect the surface pressure on the rocket and increase the pitching moment. On the other hand, for AOAs between 90 to 180 degrees (in which the fins are in the downstream portion), the effect of these vortices on the on-surface pressure is negligible, and only vortices formed near the surface of the fins increase the pitching moment.
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