双三角翼外翼前缘钝化对涡流特性的影响

通过风洞试验，利用７孔探头对７５°／４５°和７５°／６０°两种典型双三角翼进行了空间流场测量，研究了双三角翼前缘形状对大迎角涡流特性的影响．试验结果表明，双三角翼外翼前缘钝化使双涡态的双三角翼内、外翼涡互相靠拢、增加干扰，当出现合并涡态时，使合并涡涡核向内下方偏移；外翼前缘钝化使外翼涡或合并涡的Ｃｐ０、Ｖｘ较尖前缘时为高，最终使外翼涡或合并涡推迟破裂．     

后向台阶层流分离剪切层特性研究

应用激光测速仪对生向台阶层流边界层分离产生的剪切层在再附前的发展进行了测量，得到了时均速度、湍流强度及剪切层厚度等的分布特性，并研究了来流湍流度对台阶后流场湍强度分布及剪切层发展的影响，实验中发现台阶后有一个流速降低的区域，对此从涡动力学的角度作了解释。     

微结构谐振传感器

阐述了频率输出的新型谐振传感器的发展方向之一——微型化。评价性地论述了热激励硅谐振压力传感器和热激励谐振膜质量流量传感器。重点讨论了热激励的原理,特点等。指出我国应对传感器的这一发展趋势给予足够的重视。     

推力矢量和二元喷管

推力矢量是第四代战斗机获得过失速机动性的必要条件,而二元喷管又是推力矢量控制中性能较为优越的一类喷管。本文较全面地阐述了目前世界上推力矢量和二元喷管的发展和现况、二元喷管的构造和性能、二元喷管对改进飞机升阻特性和机动的作用。推力矢量能显著提高飞机在空战中的作战效率以及推力矢量控制所需的效能也在文中作了介绍。     

利用双目标优化寻求颤振抑制控制律

本文对一个三角机翼/外挂系统的颤振主动抑制进行了系统的研究。在理论上,对如何应用现代控制理论设计优化控制律进行了探讨;对非定常气动力拟合的Pade矩阵近似作了改进;提出了用理想极点和二次型性能指标进行双目标优化来确定加权矩阵的思想;在实现上,用状态观测器和单秩法极点配置两种方法设计了输出反馈控制律。风洞实验结果表明:用本文的方法所综合的控制律是合适有效的,成功地使机翼/外挂系统的颤振速度提高了15.7％,与理论计算结果吻合良好。     

关于非结构网格生成中的背景函数

背景信息对于用阵面推进法生成非结构网格是一个关键的环节.文章基于众多文献中提到的背景信息提供方法,提出一种更为实用的背景信息提供技术.此方法不仅避免了不必要的机时,内存的消耗,又使网格具有光滑性,网格的生成具有灵活性,方便性的特点.基于生成的网格采用有限体积法研究无粘高超音速化学非平衡流的流场分布,生成的网格能够成功的运用于高超音速化学非平衡流的数值计算。     

亚、超音速机翼非定常广义气动力系数之间的关系

 <正> 研究弹性飞机的动力学特性应计及非定常广义气动力。为了尽可能保留非定常运动历程,应首先计算由阶跃函数形式下洗产生的非定常气动力函数(指示函数或指数函数),再利用卷积形式的迭加原理处理任意函数形式下洗产生的非定常气动力。用振型法建立飞机弹性运动方程,可将飞机上任一质点的弹性位移近似地表示为     

The verification of GNSS tropospheric tomography model in a mountainous area

The GNSS (Global Navigation Satellite System) has not been developed as a meteorological data source provider, but with a careful and sophisticated processing strategy it might be used as one. The term GNSS tomography refers to the usage of the ray traced GNSS signal as scanning rays in the tomographic model input. The model is divided into a number of voxels. The system is inverted and value of refractivity is obtained. Typically, as in the most of the inverse processing, there is a problem of the undetermined system and as a consequence the cofactor matrix is close to singular. To avoid singularity additional conditions or constrains should be added to the system. Here, additional parameters are derived with the help of the air flow analysis in the Sudety mountains (south-west region of Poland), and special Slant Wet Delay (SWD) trimming procedure. The flow’s synthetic parameters like the Bruint-Väisälä frequency and the Froude number are determined. This way the type of the flow is recognized and the analysis of the impact of orographic barrier has been quantified. The SWDs from the GNSS observations were tested against, SWD from raytracing through the COAMPS model field. The modified GNSS tomography model was tested for the real GNSS observations delivered from the GNSS network Karkonosze located in the Sudety mountains and compared with the COAMPS model. The solution shows a considerable improvement in comparison with plain tomographic model results.     

三角翼DBD等离子体流动控制研究进展

现代战机采用较多的三角翼，在大迎角绕流时存在前缘涡破裂等气动问题。作为新型主动流动控制技术，等离子体激励频带宽、响应快、结构简单、便于闭环控制，在解决三角翼气动问题上具有潜力。回顾了介质阻挡放电（DBD）等离子体气动激励的基本原理，及其用于三角翼前缘涡控制的研究进展。从来流条件、几何构型、激励参数等方面分析了DBD等离子体激励对流动控制效果的影响规律；结合不同激励频率下流场演化特性，分析了流动控制机理。最后，从理论研究和工程应用的角度，对三角翼前缘涡控制的发展进行总结展望。     

Numerical simulations of water spray on flame deflector during the four-engine rocket launching

This paper aims to study on the cooling effect with two types of water spray nozzle on the flame deflector during the four-engine launch vehicle take-off. To accurately simulate the two-phase flow of the rocket gas with multispecies and the water spray, the three-dimensional compressible Navier-Stokes equations, discrete ordinates methods and realizable k-Ɛ turbulence model are used to establish the rocket supersonic plumes impact model. The Eulerian dispersed phase (EDP) model was used to simulate the water spray into the exhaust gas. The accuracy and effectiveness of the gas-liquid flow model are verified by a good agreement between simulation results and experimental data. On this basis, a series of numerical simulation studies under different water injection position are performed. The results show that the high temperature regions, along the axis of engines on the deflector plate, have no significant temperature decreasing effect by water spray from the nozzles mounted on the apex of the deflector, and the high temperature converts a large quantity of water into vapor near the plume boundary, which would decrease the flow conductivity. With the cooling spray nozzle fixed directly to the deflector plate, the temperature decrease effect is obvious and the effect of thermal shock on deflector plate induced by exhaust plume is reduced, so that it can prevent the flame deflector from thermal ablation. The study results provide indepth information and engineering guidance for designing the water spray systems and increasing the safety of the launch process.