Issue |
JNWPU
Volume 41, Number 2, April 2023
|
|
---|---|---|
Page(s) | 363 - 369 | |
DOI | https://doi.org/10.1051/jnwpu/20234120363 | |
Published online | 07 June 2023 |
A new intake distortion design system for research
一种新型进气畸变设计体系研究
1
School of Power and Energy, Northwestern Polytechnical University, Xi'an 710072, China
2
Chinese Flight Test Establishment, Xi'an 710089, China
Received:
9
June
2022
The intake distortion experiment is one of the important methods for aero-engine aerodynamic stability assessment. In this paper, in order to overcome the shortcomings of traditional design methods such as low accuracy in approximating the target distortion map and many experimental iterations, a design system is proposed to design the target map distortion network using Fluent based on the mapping relationship between screen distance and porous media. Finally, the steady-state total pressure test system is designed, and the physical design of the distortion generator and wind tunnel test are completed, with the error of distortion index of less than 1.5%. The test results show that the design system can simulate the distortion requirements with high accuracy and efficiency.
摘要
进气畸变实验是航空发动机气动稳定性评定的重要方法之一。为克服传统设计方法逼近目标畸变图谱准确性低、实验迭代次数多等缺点, 提出基于丝网间距和多孔介质映射关系, 采用Fluent设计目标图谱畸变网的设计体系。设计了稳态总压测试系统, 完成了畸变发生器的实物设计及风洞试验, 畸变指数误差小于1.5%。试验结果表明设计体系可以高精度、高效地模拟畸变要求。
Key words: aero-engine / distortion simulation network / Fluent / porous medium model / steady-state total pressure test system
关键字 : 航空发动机 / 畸变模拟网 / Fluent / 多孔介质模型 / 稳态总压测试系统
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