固体燃料冲压发动机自持燃烧的影响因素

采用试验和仿真方法,研究了固体燃料冲压发动机(SFRJ)自持燃烧的主要影响因素。研究结果表明:SFRJ内为典型的扩散火焰,化学反应特征时间与反应物停留特征时间的比值是影响发动机自持燃烧的关键参数,该值越小,扩散火焰越稳定;本文研究工况下,较小的后台阶高度即可保证发动机实现自持燃烧,后台阶稳定火焰的物理原因是在固体燃料表面附近形成一个低速区,保证了固体燃料的分解燃烧,当台阶高度为0时,由于化学反应特征时间与反应物停留特征时间的比值迅速增加,SFRJ无法自持燃烧;台阶高度较小时,点火过程会对SFRJ的稳定燃烧产生影响,SFRJ可能会出现熄火复燃现象。     

Development of a coupled supersonic inlet-fan Navier–Stokes simulation method

A coupled supersonic inlet-fan Navier–Stokes simulation method was developed by using COMSOL-CFD code. The flow turning, pressure rise and loss effects across blade rows of the fan and the inlet-fan interactions were taken into account as source terms of the governing equations without a blade geometry by a body force model. In this model, viscous effects in blade passages can also be calculated directly, which include the exchange of momentum between fluids and detailed viscous flow close to walls. NASA Rotor 37 compressor test rig was used to validate the ability of the body force model to estimate the real performance of blade rows. Calculated pressure ratio characteristics and the distribution of the total pressure, total temperature, and swirl angle in the span direction agreed well with experimental and numerical data. It is shown that the body force model is a promising approach for predicting the flow field of the turbomachinery. Then, coupled axisymmetric mixed compression supersonic inlet-fan simulations were conducted at Mach number 2.8 operating conditions. The analysis includes coupled steady-state performance, and effects of the fan on the inlet. The results indicate that the coupled simulation method is capable of simulating behavior of the supersonic inlet-fan system.     

扩大斜切式缓冲结构对时速400km铁路隧道口微气压波缓解研究

针对时速400?km高铁隧道口的微气压波研究,建立了基于三维可压缩非定常N?S方程和RNG?k-ε?双方程湍流模型的数值模拟方法,并通过动模型试验对计算方法进行了验证.文中分析了隧道长度、缓冲结构(带斜切的扩大段)长度和缓冲结构开孔数对微气压波的影响.研究结果表明:在一定隧道长度内,微气压波幅值随着隧道长度的增加逐渐增大;隧道口设置带斜切(30°)的等截面扩大段缓冲结构能有效缓解微气压波幅值,且随着缓冲结构的长度增加,微气压波幅值的缓解率先增大后减小,其中缓冲结构长88.56?m时缓解效果最佳,缓解率可达59.2％;该缓冲结构开孔后能进一步缓解微气压波幅值,缓冲结构开2个孔时的缓解效果最佳,缓解率可达70.9％.本文提出的缓冲结构能使得5?km及以下长度隧道的微气压波幅值达到国家规定标准,研究成果对时速400?km/h高速铁路隧道口缓冲结构的设计具有参考价值.     

基于落点预测的高旋火箭弹弹道修正算法

高旋火箭弹的修正控制是基于等效力实现的二维弹道修正控制，由于弹体存在陀螺进动和马格努斯效应，在控制力作用下产生的附加攻角引起的升力与控制力的矢量合为等效力，其大小与方向在控制过程中不断变化，不能简单根据偏差量（修正量）的比例关系来确定控制力的方向。基于此，分析了控制力与等效力的关系，提出了一种基于弹道落点预测的控制算法。首先利用弹道落点预测模型实时预测落点与目标的偏差量，然后利用小扰动法构造偏差量对控制量的敏感系数矩阵，通过偏差量与敏感系数矩阵解算出纵、横两个方向的需用控制量。采用修正前后速度矢量的位置关系得到控制量的合矢量及其方位角，并利用控制量的合矢量与等效力计算出控制周期，在控制周期内按照等效力方位角调整控制力的方向实现对高旋火箭弹的精确控制，解决了非线性耦合问题。仿真结果表明该算法具有较高的控制精度，为工程应用提供理论依据。     

基于单参数迭代的TAEM在线轨迹生成方法

针对大升力体轨道再入飞行器末端能量管理（TAEM）段制导控制能力强、末端约束不惟一的问题，将TAEM段分为动压跟踪和着陆预备2个阶段，设计了不同的纵向轨迹剖面，从而将TAEM段在线轨迹生成问题转化为单参数搜索问题。第1阶段设计标称动压剖面为纵向参考轨迹，使得飞行器过程约束得到保证。第2阶段纵向剖面设计为标称高度剖面，从而使得末端点高度和倾角约束得到保证。根据末端动压误差设计修正律，迭代修正第一阶段动压剖面，从而使得最终的纵向轨迹满足所有的状态约束。在线轨迹递推采用以时间为自变量的数值积分，递推过程引入闭环制导律，通过实时修正攻角跟踪纵向剖面，修正倾侧角跟踪地面轨迹，从而保证在线生成的轨迹符合物理特性，降低闭环制导难度。在考虑初期再入末端大范围状态散布情况下，数值仿真显示了所提算法的鲁棒性。     

Design and Fabrication of a Bio-inspired Acceleration Sensor Using Liquid Mass Blocks

A linear acceleration sensor,which is inspired by the human balance organ,is designed and prepared. It uses a liquid mass-block and a symmetrical-electrodes metal-core polyvinylidene fluoride fiber(SMPF)as the sensor element. The output signal of the sensor has an exponential relationship with the excitation amplitude of the impacting vibration. It is capable of detecting the amplitude and the correct frequency for sinusoidal excitations using an exponential correlation. The experiments indicate that both the output signal of the sensor and the resonance frequency increase substantially with increasing diameter of the metal core. The first-order resonance frequencies of the sensors with 40,60,and 80 μm diameter metal wires are below 10 Hz,which is near the range of human body motion frequencies.     

A data-driven health indicator extraction method for aircraft air conditioning system health monitoring

Prognostics and Health Management (PHM) has become a very important tool in modern commercial aircraft. Considering limited built-in sensing devices on the legacy aircraft model, one of the challenges for airborne system health monitoring is to find an appropriate health indicator that is highly related to the actual degradation state of the system. This paper proposed a novel health indicator extraction method based on the available sensor parameters for the health monitoring of Air Conditioning System (ACS) of a legacy commercial aircraft model. Firstly, a specific Airplane Condition Monitoring System (ACMS) report for ACS health monitoring is defined. Then a non-parametric modeling technique is adopted to calculate the health indicator based on the raw ACMS report data. The proposed method is validated on a single-aisle commercial aircraft widely used for short and medium-haul routes, using more than 6000 ACMS reports collected from a fleet of aircraft during one year. The case study result shows that the proposed health indicator can effectively characterize the degradation state of the ACS, which can provide valuable information for proactive maintenance plan in advance.     

基于复变量的参数敏感性分析

介绍了进行敏感度导数计算的有限差分法和复变量法。在原有流场求解程序的基础上,引入了复变量,实现了敏感度导数的自动计算。算例验证表明,差分法由于减消误差(subtractive cancellation error)的存在,其计算精度对扰动步长比较敏感,合适的扰动步长需经过多次尝试才能得到。而复变量方法虽然计算量大,但是由于没有引入减消误差,因而当扰动步长趋于足够小时其计算精度能够真正达到二阶精度。     

基于数据操作的自动化测试技术研究与应用

首先分析了数据驱动实时软件自动化测试中存在的问题,提出了基于数据操作的改进关键字驱动脚本自动化测试方法,并在此基础上实现了航天测控软件系统的自动化测试平台。     

临近空间可变形滑翔飞行器轨迹优化与性能分析

针对临近空间滑翔飞行器的变形需求，提出一种具有较高环境适应性的伸缩式可变形滑翔飞行器(MGV)，建立了含有冗余控制变量的MGV轨迹优化模型，利用伪谱法量化分析了MGV在射程覆盖能力、规避绕飞能力和末段打击能力三方面的性能收益，得到了飞行过程中的最优控制律和最优变形律，可指导制定变形策略和设计变形控制系统，为滑翔飞行器的后续发展和变形飞行器的相关研究提供参考。