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231.
232.
提出了用分层抽样-重要性抽样复合法计算接管的断裂失效概率,并与直接抽样的MonteCarlo法进行了比较,结果表明:用复合法计算接管断裂失效概率不但精度高,而且大幅度节省机时,提高效率。 相似文献
233.
准确划分射流集束段和雾化段是研究射流集束性的前提。设计了一种基于光强定量测量集束性的方法。基于该方法对具有尖锐边缘孔口和类流线型出口流道的喷嘴,在超高压喷射条件下形成的水射流结构形态进行分析,并与直柱型出口流道喷嘴射流对比分析。结果表明:光强测量法能够比较准确地划分射流集束段和雾化段,区分雾化段中核心区和气液混合区;毛细超高压水射流的集束性在雷诺数影响下由喷嘴孔口结构、出口流道结构的综合作用决定;在一定雷诺数范围内,具有尖锐边缘孔口和类流线型出口流道的喷嘴有良好的集束性,当雷诺数达到1.8×104~1.9×104时,射流集束段长度趋于恒定;喷嘴出口流道结构通过气流调节,对射流集束性的影响在高雷诺数下可以忽略,空气动力扰动在高雷诺数下对射流集束性影响程度显著降低。 相似文献
234.
This paper examines robust optimization design and analysis of a conformal expansion nozzle of flying wing Unmanned Aerial Vehicle(UAV) with the inverse-design idea.In view of flow features and stealth constraints, the inverse-design idea is described and the uncertainty-based robust design model is presented.A robust design system employs this model to combine deterministic optimization and robust optimization and is applied into design of a conformal expansion nozzle.The results indicate that design optimization can conform to the anticipation of the inversedesign idea and significantly improve the aerodynamic performance that meet the requirement of 6σ.The present method is a feasible nozzle design strategy that integrates robust optimization and inverse-design. 相似文献
235.
《中国航空学报》2021,34(3):118-128
Comprehensive optimization design of serpentine nozzle with trapezoidal outlet was studied to improve its aerodynamic and electromagnetic scattering performance. Serpentine nozzles with different center offsets and different ratios of the bases of the trapezoidal outlet were generated based on curvature control regulation. Computational Fluid Dynamics (CFD) simulations have been conducted to obtain the flow field in the nozzle, and Forward-Backward Iterative Physical Optics (FBIPO) method was applied to study the electromagnetic scattering characteristics of the nozzle. Guarantee Convergence Particle Swarm Optimization (GCPSO) algorithm based on Radial Basis Function (RBF) neural network was used to optimize the geometry of the nozzle in consideration of its aerodynamic and electromagnetic scattering characteristics. The results show that the GCPSO method based on RBF can be used to optimize the aerodynamic characteristics of the internal flow and the scattering characteristics of the cavity of the serpentine nozzle with irregular outlet. The optimized model has a higher center offset and a lower ratio of the bases of the trapezoidal outlet after optimization compared to the original model. The optimized model leads to a slight change in aerodynamic performance, with a total pressure recovery coefficient increase of 0.31% and a discharge coefficient increase of 0.41%. In addition, the Radar Cross Section (RCS) decreases also by around 83.33% and the overall performance is significantly improved, with a decrease of the optimized objective function by around 38.74%. 相似文献
236.
温度冲击试验可模拟极端温度环境对固体发动机结构的影响。本文利用三维有限元方法,通过热-机耦合,分析了一种固体发动机喷管堵盖在温度冲击中的温度、应力和应变的变化情况。结果表明:温度冲击中,喷管堵盖内存在温差,最大可达46℃;存在内应力,在铝合金支撑件/EP密封件环形界面处最大,低温-50℃时达18.1 MPa,是堵盖最先破坏的位置;EP密封件是堵盖的最薄弱环节,粘接结构最大内应力11.6MPa,分离结构9.1 MPa;得出了温度冲击下,影响喷管堵盖结构完整性的因素,表明选用低模量和合适线胀系数的密封材料,采用常温成型方法,脱开密封件/支撑件间环形交界面,可有效降低密封件/支撑件的内应力;含GFM/EP/铝合金喷管的真实发动机温度冲击试验结果与预估结果吻合。 相似文献
237.
《中国航空学报》2022,35(8):221-235
Aimed at the problem of instability in engine control caused by vector deflection in experiment of turbofan engines with Axisymmetric Vectoring Exhaust Nozzle (AVEN), a vector deflection stability control method of aero-engine based on Linear Active Disturbance Rejection Control (LADRC) is proposed. Firstly, based on CFD numerical simulation, aerodynamic performance model of AVEN is established, and the aerodynamic load change rule of the nozzle throat area actuator during vector deflection is revealed. Subsequently, the integrated model of AVEN/turbofan engine is established by Simulink/AMESim co-simulation. Finally, the nozzle throat area control loop based on LADRC is designed. The simulation results show that the integrated model can reflect the influence of vector deflection on the stability of the control system. The accuracy comparison between the fan rotor speed and the test data during vector deflection is larger than 1%, indicating a high degree of confidence. Compared with the conventional PID control, the designed LADRC control loop reduces the speed of the low-pressure rotor during vector deflection by 70%, which effectively improves the control stability of the vector deflection. Meanwhile, the fuel flow ratechange during the vector deflection process is smaller and more economical, which provides an important reference for engineering applications. 相似文献