基于超音速可变进气道/发动机耦合模型的安装性能寻优控制

IF 0.7 4区工程技术 Q4 ENGINEERING, AEROSPACE

International Journal of Turbo & Jet-Engines Pub Date : 2023-04-17 DOI:10.1515/tjj-2023-0030

Chen Wang, Ximing Sun, Xian Du

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引用次数: 0

摘要

随着超声速航空推进系统的发展，进气道/发动机一体化组合性能的优化变得越来越重要。为解决进气道/发动机耦合问题，提出了准一维进气道建模和阻力计算方法，提出了基于邻域物种差异进化-灰狼优化器(NSDE-GWO)的综合性能寻求控制(PSC)，并定量分析了可变几何进气道调节对性能的影响。结果表明，坡道角调整的优化效果普遍优于排气量调整，且NSDE-GWO混合算法在三种不同模式下均获得了显著的优化解。与固定几何形状的进气道相比，具有可变几何形状进气道调节的PSC提供了更多的优化潜力，并且可以通过调节排气调节和斜坡角来最大化性能。本研究具有理论指导和实际工程意义。

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Installed performance seeking control based on supersonic variable inlet/engine coupling model

Abstract With the advancement of the supersonic aero propulsion system, optimizing the combined performance of inlet/engine integration has become increasingly crucial. To solve the coupling inlet/engine problem, a quasi-one-dimensional inlet modeling and drag calculation method are proposed, integrated performance seeking control (PSC) based on the neighborhood-based speciation differential evolution-grey wolf optimizer (NSDE-GWO) is presented and quantitatively analyses the influence of variable geometry inlet regulation on performance. The results reveal that the optimization effect of the ramp angle adjustment is generally better than that of the bleed adjustment, and the NSDE-GWO hybrid algorithm achieves remarkable optimization solutions in all three different modes. The PSC with variable geometry inlet adjustment provides more additional potential for optimization compared with fixed geometry inlet, and the performance can be maximized by adjusting both the bleed adjustment and the ramp angle. This study maximizes the exploitation of potential and has theoretical guidance and practical engineering significance.

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来源期刊

International Journal of Turbo & Jet-Engines 工程技术-工程：宇航

CiteScore

1.90

自引率

11.10%

发文量

审稿时长

6 months

期刊介绍： The Main aim and scope of this Journal is to help improve each separate components R&D and superimpose separated results to get integrated systems by striving to reach the overall advanced design and benefits by integrating: (a) Physics, Aero, and Stealth Thermodynamics in simulations by flying unmanned or manned prototypes supported by integrated Computer Simulations based on: (b) Component R&D of: (i) Turbo and Jet-Engines, (ii) Airframe, (iii) Helmet-Aiming-Systems and Ammunition based on: (c) Anticipated New Programs Missions based on (d) IMPROVED RELIABILITY, DURABILITY, ECONOMICS, TACTICS, STRATEGIES and EDUCATION in both the civil and military domains of Turbo and Jet Engines. The　International Journal of Turbo & Jet Engines　is devoted to cutting edge research in theory and design of propagation of jet aircraft. It serves as an international publication organ for new ideas, insights and results from industry and academic research on thermodynamics, combustion, behavior of related materials at high temperatures, turbine and engine design, thrust vectoring and flight control as well as energy and environmental issues.