纳米卫星推进喷管流动建模

J. Marques, G. Ribeiro, F. Brójo
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引用次数: 0

摘要

纳米和微型卫星的紧凑型推进系统的发展是当今一个日益增长的研究课题。实际上,能够承受空间操作的低成本材料的可用性现在正在成为广泛的技术。这种进入空间的民主化并没有伴随着关键推进技术的相应可用性。然而,这类卫星的推进系统的可用性将为它们提供与任务剖面有关的新的可能性。在本工作中,将分析电喷雾,特别是喷嘴内的流动。这种流动是由压力和静电场的混合控制的。开发了一个完整的EHD(电流体动力学)计算模型,该模型使用用户指定的函数集成在经典CFD代码中。所提出的计算模型能够计算所考虑的电喷雾试验用例的流场。通过对喷雾推力器液滴尺寸的比较,得出数值模型预测液滴尺寸误差在5%以内的结论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flow Modelling of Propulsion Nozzles for Nano-Satellites
The development of compact propulsion systems for nano and micro satellites is nowadays a growing research topic. Actually, the availability of low cost materials able to withstand space operation is now becoming widespread technology. This democratization on the access to space was not followed with a corresponding availability of critical propulsion technologies. However, the availability of propulsion systems for this class of satellites will provide them with new possibilities in what relates to mission profiles. In the present work an electrospray will be analysed, in particular the flow in the nozzle. This flow is controlled by a mix of pressure and electrostatic field. A full EHD (electrohydrodynamics) computational model is developed that is integrated in a classic CFD code using user specified functions. The proposed computational model was able to compute the flowfield for the electrospray test case under consideration. A benchmark against experimental results, by comparing spray thruster droplet size, concluded that the numerical model can predict their size within an error of 5%.
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