发动机高速动平衡的振动相位分析

针对发动机转子高速动平衡转速波动、无法保证振动信号同步整周期采样的特点,提出了一种基于转速脉冲的振动信号重构技术,大大提高了相量测量的准确度和稳定性。经试验验证,这项技术是有效、可行的。     

基于干扰观测器的新一代歼击机鲁棒飞行逆控制器设计

基于干扰观测器设计了新一代歼击机的鲁棒飞行逆控制器。根据时标分离的原则，将机动飞机分为快慢不同的回路。采用动态逆方法设计了快回路和慢回路控制器，并在慢回路用干扰观测器估计飞机所受的扰动，同时，用于在线补偿动态逆误差。仿真结果表明，该设计合理。     

航班调度应急管理研究

航班调度应急管理是针对频发、突发事件的管理方法,它以提高顾客利益与航空公司利益的综合效应为目标,涵盖了制定航班计划到执行计划的整个过程.本文就航班调度应急管理的两种方法：鲁棒调度与受扰恢复策略,论述了两者的研究重点、数学模型和算法.     

跨声速粘性流绕振荡翼型的非定常计算

本文采用时间和穴是二阶精度的Ｂｅａｍ－Ｗａｒｍｉｎｇ格式和Ｂａｌｄｗｉｎ－Ｌｏｍａｘ代数湍流模式及ｑ－ω二方程微分模式，结合网格自适应技术，数值模拟Ｎ－Ｓ方程，计算了跨声速下的翼型非定常运动，包括俯仰，浮沉和前后平移振荡。结果表明，压力分布和气动系数与实验基本符合，微分模式和自适应网格能够显著提高激波和边界层计算精度。     

基于欧拉方程的跨声速翼型设计

给出了一种基于欧拉方程的跨声速翼型设计方法。方法以Ｔａｋａｎａｓｈｉ提出的“正反迭代余量修正”设计原理为基础，在气动力分析模块中，以欧拉方程为基本控制方程，并采用Ｗａｌｚ边界层方法对其进行粘性修正；反设计模块采用经过改进的二维翼型设计方法。方法的程序经过几个设计实例主题证明是有效而实用的。     

应用流固耦合数值方法研究机翼的射流减振技术

采用流固耦合的数值计算方法研究了NACA 0 0 15翼型在大迎角 ( 15°～ 6 0°)范围的颤振 ,以及在翼型背部部分引入射流的减振技术。在流体区域用高精度、高分辨率算法求解Farve平均的Navier Stokes方程 ,在固体区域用四阶Runge Kutta法求解振动方程 ,并且每一个时间步后都在两个区域之间传递边界条件。计算结果表明在翼型背部引入适当射流会降低翼型的振动 ,并提高升力。但如果引入射流的速度过高 ,会在叶背处形成新的分离流 ,升力反而会下降     

基于多学科综合的MAV鲁棒飞行控制器设计

气动、结构、推进和环境等学科设计参数变化与耦合对微型飞行器(MAV)性能影响明显，MAV飞行控制器设计应考虑这些因素。将MAV多学科模型集成在统一框架下，提出了基于各学科设计参数变化的线性化建模方法，研究了利用μ综合手段进行MAV飞行控制器设计的方法和步骤，并将此方法应用于某MAV纵向控制器的设计与评估中。     

翼型动失速和非定常载荷的综合翼型数据方法

本文给出受迫谐振翼型的动失速工程估算方法。本方法基于凤洞试验，综合分析翼型动、稳态特性之间的差别与动、稳态条件之间的关系，建立一套估算动、稳态特性之间差别的经验公式，修正稳态特性，得到相应的动态特性。用本方法计算了三种翼型不同动态条件（包括深失速和后掠）的动失速特性，并与测量和文献结果进行了比较，结果符合得相当好。     

Transonic buffet control research with two types of shock control bump based on RAE2822 airfoil

Current research shows that the traditional shock control bump (SCB) can weaken the intensity of shock and better the transonic buffet performance.The author finds that when SCB is placed downstream of the shock,it can decrease the adverse pressure gradient.This may prevent the shock foot separation bubble to merge with the trailing edge separation and finally improve the buffet performance.Based on RAE2822 airfoil,two types of SCB are designed according to the two different mechanisms.By using Reynolds-averaged Navier-Stokes (RANS) and unsteady Reynolds-averaged Navier-Stokes (URANS) methods to analyze the properties of RAE2822 airfoil with and without SCB,the results show that the downstream SCB can better the buffet performance under a wide range of freestream Mach number and the steady aerodynamics characteristic is similar to that of RAE2822 airfoil.The traditional SCB can only weaken the intensity of the shock under the design condition.Under the off-design conditions,the SCB does not do much to or even worsen the buffet performance.Indeed,the use of backward bump can flatten the leeward side of the airfoil,and this is similar to the mechanism that supercritical airfoil can weaken the recompression of shock wave.     

Aerodynamics of smart flap under ground effect

Aerodynamic characteristics of two-dimensional smart flap under the ground effect have been assessed by a numerical simulation. In this process, a pressure-based implicit procedure to solve Navier–Stokes equations on a nonorthogonal mesh with collocated finite volume formulation is used. The boundedness criteria for this procedure are determined from the Normalized Variable Diagram (NVD) scheme. The procedure incorporates the k–ε eddy–viscosity turbulence model. Cantilever beam with uniformly varying load with roller support at the free end is considered for the configuration of the smart flap. The method is first validated against experimental data. Then, the algorithm is applied for turbulent aerodynamic flows around airfoil with smart and conventional flaps for different attack angle, flap angle and ground clearance where the results of two flaps are compared. The comparisons show that the quality of the solution is considerable.