Passive flow modification over the supersonic and the hypersonic air-intake system using bleed

IF 1.2 Q3 ENGINEERING, MECHANICAL

FME Transactions Pub Date : 2023-01-01 DOI:10.5937/fme2303329s

J. Sinha, Sanjay Singh, O. Prakash, D. Panchal

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Abstract

The air intake should be operated at design conditions to achieve a high total pressure recovery and optimum mass capture ratio. The current research focuses on the numerical simulation of the supersonic and hypersonic air inlet and its starting and unstarting characteristics. 2D RANS equation for supersonic and hypersonic intake has been solved using the k-oSST turbulence model. The in-house code and the algorithm based on the RANS equation have also been validated in due process and used for subsequent simulations. The sudden drop in mass capture ratio indicates the unstart condition of the intake. The presence of a bleed section has a commendable effect on the performance parameter of the air intake. A separation bubble was observed at the intake's entrance during the off-design conditions, resulting in performance losses. Four different bleed sections ranging in size from 1.6mm to 8.6mm were used, and simulations with bleed were run for different Mach numbers ranging from 3 to 8. The optimum bleed size of 3mm has been found quite effective in modifying Total pressure recovery within the optimum mass flow rate over the wide range of Mach numbers.

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在超声速和高超声速进气系统上采用抽气的被动气流改造

进气口应在设计条件下运行，以实现高总压恢复和最佳质量捕获比。目前的研究重点是超声速和高超声速进气道及其启停特性的数值模拟。利用k-oSST湍流模型求解了超声速和高超声速进气道的二维RANS方程。内部代码和基于RANS方程的算法也在适当的过程中得到验证，并用于后续的模拟。质量捕获比的突然下降表明进气未启动。排气段的存在对进气口的性能参数有很好的影响。在非设计工况下，在进气口观察到分离气泡，导致性能损失。采用了四种不同的排气段，尺寸从1.6mm到8.6mm不等，并在马赫数从3到8的不同范围内进行了排气模拟。在较宽马赫数范围内，在最佳质量流量范围内，3mm的最佳排气尺寸对调整总压恢复非常有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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