Derivation and validation of a similarity law for free-flight wind tunnel tests of parallel stage separation

Aiming at the safety problem of the stage separation of parallel reusable high-speed air vehicles, this paper studies the unsteady test method and focuses on deriving a similarity law of parallel stage separation free-flight wind tunnel tests. The new similarity law considers the influences of aerodynamic force and gravity on the motions of the two stages, as well as the influence of aerodynamic interference between the two stages on each other’s motion. From the perspective of multi-angle physical equations, the conditions to ensure that the two-stage separation trajectory of a wind tunnel test is similar to that of a real air vehicle are derived innovatively, so as to ensure the authenticity and credibility of wind tunnel test results. The similarity law is verified by an HIFiRE-5 air vehicle, and the separation trajectories of wind tunnel tests and the real air vehicle are obtained by numerical simulation. The research shows that the similarity law derived in this paper can ensure that wind tunnel free-flight tests have the ability to predict the two-stage separation characteristics of real parallel vehicles. By analyzing the separation trajectory curve of the typical state, it is found that the new method can ensure that the trajectory error of a wind tunnel test does not exceed 1%, which indicates that this method is credible. The establishment of the new method lays the foundation for subsequent wind tunnel tests and provides support for research on the safety of the stage separation of parallel reusable air vehicles.     

星箭分离减冲击环结构优化设计

针对星箭分离过程，建立了减冲击环结构模型，并分析了该结构的减冲原理。利用冲击响应谱的时域合成算法计算获得符合冲击谱规范的时域载荷，并以此作为结构优化设计中动力学模型的输入载荷工况。以减冲击环的连续层数、单层支撑块数、连续层厚度、支撑块层高度以及环的外半径和内半径6个结构参数为设计变量，以减冲效果和结构强度、刚度为约束，以质量最轻为目标，建立减冲击环的结构优化设计模型，这是一包含离散变量和连续变量的混合优化问题。为了在跨平台下求解该混合优化问题，采用代理模型策略和自适应模拟退火算法求解，并在最优点处开展结构性能对设计变量的敏度计算，对计算结果进行了分析评估。本研究对强冲击动力学环境下的航天器结构分析与设计有一定的指导意义。     

Influence of sub boundary layer vortex generator height and attack angle on cross-flows in the hub region of compressors

It has been recently shown that Sub Boundary layer Vortex Generator (SBVG, abbreviated as VG hereafter) can suppress the Cross-Flow (CF), and therefore, can eliminate corner separation and increase aerodynamic loading when installed on the end wall inside middle-load compressor passages. However, when VGs are applied in high-load compressors, it is difficult to achieve ideal results. This is because the definition of the VG attack angle in the presence of CF in existing research is confusing, and the stronger CF in high-load compressors worsens the problem and results in an improper design and optimization range of VG attack angle. Therefore, this paper clarifies the definition of the VG attack angle in the presence of CF and reveals the CF controlling mechanism of VG on a flat plate. The differences in the flow phenomena around a VG both with and without CF are also studied. The numerical results show that a larger height or attack angle of the VG generates a greater CF suppression effect. However, the cross velocity increases when surmounting the primary vortex induced by the VG, except that this enhanced CF is less conspicuous for larger VG heights. Compared to the cases without CF, the VG suffers an additional loss because of the stronger separation and primary vortex loss caused by the CF.     

Aerodynamic characteristics of store during lateral jet assisted separation from cavity using free drop technique

Aimed at the problem of store separation from internal cavity, this paper innovatively puts forward a separation scheme of using lateral jet to assist store safe separation. The jet ensures that the store is continuously subjected to down head moment during separation, so as to ensure safe separation. The wind tunnel free drop test technique with lateral jet is established, which can ensure that there is no support interference in the motion process of the store and more truly simulate the motio...     

齿轮故障识别的密度峰值聚类欠定盲源分离算法

为提高盲源分离算法在振动源数目估计问题中的噪声鲁棒性，提出了一种基于密度峰值聚类的欠定盲源分离算法。对预处理后的信号提取单源点，通过密度峰值聚类对单源点进行聚类得到混合矩阵的估计值。通过基于压缩感知模型对源信号进行重构，得到分离信号。为验证所提算法分离准确性和噪声鲁棒性，用所提算法对不同信噪比下的仿真信号进行分离，结果显示：在信噪比不低于4 dB时，所提算法均可以准确分离出源信号，算法的准确性和鲁棒性得到验证。设计旋转部件故障诊断试验台对所提算法在实际应用中的有效性进行验证，对实测复合故障振动信号进行分离，试验结果表明该算法成功分离出观测信号中的锥齿轮和行星齿轮单一故障特征，有助于工程中旋转部件故障诊断。     

基于网格测力数据的多体分离轨迹预测方法研究

将基于风洞网格测力试验数据建立的气动力模型与刚体运动方程进行耦合求解得到多体分离轨迹-时间特性，建立了一种多体分离的离线轨迹预测方法。为了提高气动力模型的预测精度，针对移动最小二乘法（MLS）模型提出一种新的权函数形式，针对Kriging气动力数学模型通过加入样点预处理提出了Kriging-Pre数学模型。研究方法应用于来流马赫数6条件下，某并联两级入轨飞行器标模的分离特性研究。研究表明采用改进的两种气动力数学模型均可有效提高分离轨迹预测精度，得到与CFD以及风洞试验定性一致的结论。验证了本文提出的离线轨迹预测方法可以满足当前多体分离特性定性分析需求，具有较高时效性。     

民用飞机发动机吊挂应急断离设计研究

发动机吊挂应急断离是民用飞机设计的关键核心技术之一，国外相关技术难以获取，国内以理论研究和提出主要思路为主，与工程实现存在差距。基于此，从适航标准入手，研究吊挂、保险销和机翼三者的应急断离设计载荷大小的关系，通过场景分析，研究界面结构强度计算的载荷确定方法。结果表明：吊挂应急断离设计仅需单独考虑发动机主载荷向上或主载荷向后工况，合理给定吊挂、保险销和机翼结构三者的应急断离设计载荷大小关系可有效降低结构重量；机翼/吊挂界面载荷方向则必须结合结构细节做具体的应急断离场景分析。     

梦天实验舱初始轨道快速计算策略与分析

初始轨道是航天器入轨评价的关键判据，快速准确计算初始轨道可在入轨异常时为应急救生控制赢得时间。针对传统初始轨道计算方法时间与精度不能兼顾的问题，设计了初始轨道快速计算策略，根据运载火箭加速度变化率来判断舱箭分离时间，采用基于动力学约束的实时轨道滑动批处理方法累积超短弧分离后数据计算初始轨道，对利用各种数据源确定的多组初始轨道进行逻辑优选判断。通过梦天试验舱仿真数据验证表明:使用该策略计算初始轨道，可达到事后精密定轨同等精度，计算时间控制在1 min以内，时效性远超事后精密轨道确定方法。     

用于预测轴流压气机内角区分离的RANS和SBES方法评估

为了提高压气机内角区分离的RANS建模精度，基于剪应力输运模型（SST模型），本文评估了湍流非平衡和各向异性修正对压气机角区分离预测的影响。结果表明，角区分离区上游端壁二次流以及角区分离流均呈现出很强的湍流非平衡和各向异性行为，结合非平衡和各向异性修正而提出的NSST-Helicity-QCR模型能够在各类工况下给出最为准确的角区分离预测结果。为了进一步验证提出的NSST-Helicity-QCR模型能够合理捕捉压气机端区流动物理，基于一种新型混合RANS-LES方法——应力融合涡模拟（SBES）构建的高保真时间精确湍流数据库，本文对NSST-Helicity-QCR模型进行评估反馈。结果表明，NSST-Helicity-QCR模型合理捕捉了端壁二次流以及角区分离流的湍流非平衡行为，但仍低估了角区分离区内的湍流各向异性行为。