镜反射凹面及相互可视表面的轨道外热流计算

通过对空间表面所受外热流以及镜反射表面所具有的特性的分析，提出了采用蒙特卡罗法计算镜反射凹面及镜反射相互可视表面的轨道热流的方法，并对半球凹面和两相互垂直可视平板的轨道热流进行了计算。     

微重力火箭气动加热计算

针对气动外形为曲线、锥（柱）旋转组合体的微重力火箭，采用半球－柱（锥）和后掠翼的气动加热计算方法及公式，分析计算了超高音速飞行状态下微重力火箭各特征表面上的热流及温度，并用一元平板传热模型和差分方法计算了箭体结构内部的温度分布，为箭体结构及热防护提供了有效的设计方法和可靠依据。     

星用介质材料表面充放电效应试验研究

航天器表面介质材料易遭受表面充放电危害。利用30keV单能电子对几种不同的航天介质材料进行了表面充放电模拟试验,测量了不同电子通量辐照下的表面充电电位以及放电脉冲。试验结果表明,聚酰亚胺薄膜在接地处理不当时表面可充至千伏以上,易发生表面放电,且辐照强度越大,放电频率越高。表面镀铝的聚酰亚胺薄膜在不接地时,铝膜成为悬浮导体更加剧了放电的危害。而通过渗碳处理的聚酰亚胺薄膜,其良好的导电性能可有效抵御nA/cm~2量级电子的表面充电。聚四氟乙烯天线罩表面未进行防静电处理时,表面充电电位可达万伏量级,极易发生放电。     

一种混合励磁同步发电机的气隙磁密分析及其电压谐波抑制

为改善混合励磁同步发电机的气隙磁密分布,采用三段式气隙长度对转子进行了优化,对比了优化前后的气隙磁密。为抑制电压谐波,在完成转子结构优化的基础上,进一步采用短距、分布电枢绕组以及定子斜槽等措施。最后对样机电压波形进行了实测和质量分析,结果表明:采用三段式气隙长度与定子斜槽相结合,可将电压波形的总谐波失真(THD)抑制在5%的范围内。此外,探讨了偏心距法在切向/径向混合励磁电机中应用的可行性,并对比了分别采用偏心距法和三段式气隙长度法时的气隙磁密。     

基于模型预测的多电机弱磁同步控制策略研究

从工业场合下多电机系统高速运行的实际需求出发,分析了传统多电机控制系统和传统弱磁控制系统的优缺点,针对多电机高速运行时的弱磁特性进行了研究。模型预测控制(MPC)是一种基于被控对象模型的新型控制算法,具有较强的鲁棒性和较好的控制性能。交叉耦合控制是一种在并行控制基础上对每个电机进行相应补偿的控制系统。将MPC应用到多电机控制系统中并对其进行改进使其具有弱磁控制能力;对传统的交叉耦合控制策略进行改进。将二者结合提出了一种基于模型预测的多电机弱磁同步控制策略,并以双电机系统为例。最后,进行了仿真验证,仿真试验结果表明,基于模型预测的多电机弱磁同步控制策略,可获得比传统双电机系统更好的跟随性能和同步性能。     

Experimental investigation on aero-heating of rudder shaft within laminar/turbulent hypersonic boundary layers

The aero-heating of the rudder shaft region of a hypersonic vehicle is very harsh, as the peak heat flux in this region can be even higher than that at the stagnation point. Therefore, studying the aero-heating of the rudder shaft is of great significance for designing the thermal protection system of the hypersonic vehicle. In the wind tunnel test of the aero-heating effect, we find that with the increase of the angle of attack of the lifting body model, the increasement of the heat flux of the rudder shaft is larger under laminar flow conditions than that under turbulent flow conditions. To understand this, we design a wind tunnel experiment to study the effect of laminar/turbulent hypersonic boundary layers on the heat flux of the rudder shaft under the same wind tunnel freestream conditions. The experiment is carried out in the ?2 m shock tunnel(FD-14 A) affiliated to the China Aerodynamics Research and Development Center(CARDC). The laminar boundary layer on the model is triggered to a turbulent one by using vortex generators, which are 2 mm-high diamonds. The aero-heating of the rudder shaft(with the rudder) and the protuberance(without the rudder) are studied in both hypersonic laminar and turbulent boundary layers under the same freestream condition. The nominal Mach numbers are 10 and 12, and the unit Reynolds numbers are2.4 × 10~6 m~(-1) and 2.1 × 10~6 m-1. The angle of attack of the model is 20°, and the deflection angle of the rudder and the protuberance is 10°. The heat flux on the model surface is measured by thin film heat flux sensors, and the heat flux distribution along the center line of the lifting body model suggests that forced transition is achieved in the upstream of the rudder. The test results of the rudder shaft and the protuberance show that the heat flux of the rudder shaft is lower in the turbulent flow than that in the laminar flow, but the heat flux of the protuberance is the other way around,i.e., lower in the laminar flow than in the turbulent flow. The wind tunnel test results is also validated by numerical simulations. Our analysis suggests that this phenomenon is due to the difference of boundary layer velocities caused by different thickness of boundary layer between laminar and turbulent flows, as well as the restricted flow within the rudder gap. When the turbulent boundary layer is more than three times thicker than that of the laminar boundary layer, the heat flux of the rudder shaft under the laminar flow condition is higher than that under the turbulent flow condition. Discovery of this phenomenon has great importance for guiding the design of the thermal protection system for the rudder shaft of hypersonic vehicles.     

基于有效磁链观测器的内置式永磁同步电机的无差拍直接转矩控制

为提高永磁同步电机驱动系统的性能,提出一种无速度传感器内置式永磁同步电机(IPMSM)无差拍直接转矩控制方法。在建立电机离散化模型的基础上,导出了转矩与磁链的无差拍电压控制律。采用图形化辅助解析的方法,直观地表达了无差拍直接转矩控制电压矢量解的物理含义。将无差拍直接转矩控制与基于有效磁链观测器的速度估算方法相结合,实现了IPMSM的无速度传感器控制。仿真结果验证了该方法的有效性。     

无轴承异步电机的自抗扰控制策略

针对无轴承异步电机(BLIM)的逆系统解耦控制性能受负载和参数变化影响的问题,在转子磁链定向逆系统解耦控制的基础上,采用自抗扰控制器(ADRC)替换经典的PID控制器,将BLIM模型中的交叉耦合项、本体参数变化和负载视为“扰动”,统一用ADRC的扩张状态观测器(ESO)估测,非线性状态误差反馈控制器(NLSEF)进行补偿。仿真结果表明:采用了ADRC,系统具有较好的动态解耦控制性能;同时,对电机参数和负载变化具有更好的鲁棒性。     

基于磁链重构的永磁同步电机分布参数模型

针对基于电感的永磁同步电机(PMSM)线性集中参数模型无法描述电机磁路饱和、反电动势非正弦等非理想特性的问题,提出一种基于磁链重构的PMSM分布参数模型,并进行了仿真和试验验证。首先通过有限元分析(FEA)获取电机不同工作点下的磁链,其次利用傅里叶级数展开和多项式拟合方法对磁链进行重构,再根据重构的磁链建立起PMSM分布参数模型,并进行了仿真和试验验证。仿真和试验结果表明,模型能准确描述PMSM在不同工况下的非线性特性。     

跨音速压气机转子中三维湍流流场计算及涡系分析

从叶轮机械转动坐标系中的三维、可压、湍流、Ｒｅｙｎｏｌｄｓ平均Ｎ－Ｓ方程组出发,用Ｂａｌｄ－ｗｉｎ－Ｌｏｍａｘ湍流模式使方程组闭合;结合有限体积离散并采用隐式矢通量分裂技术;求解了西德宇航院（ＤＦＶＬＲ）的单级跨音速压气机转子内的三维湍流流场。计算结果可分辨出该转子内三维流场的细微结构、激波的空间曲面;得到马蹄涡、通道涡、尾迹涡和角涡的形态及其发展,流场的三维性非常明显。计算得到的壁面极限流线图可反映出压气机中分离流动的拓扑结构