基于磁通感应的动目标探测原理及分析

文章研究利用磁通感应技术对运动目标进行探测的方法。通过分析运动目标的磁特性,建立等效磁性模型。根据模型设计了探测感应线圈的结构,并从理论上推导出线圈内磁通量和感生电动势的求解公式。利用数值仿真获得了探测信号与运动目标特征及线圈参数的关系。计算结果表明,探测信号对运动目标参数及探测感应线圈的结构变化响应明显,初步验证了该探测技术的可行性。     

航天器声试验ISO国际标准制定过程及启示

标准国际化是助推中国航天国际化发展战略转型重要途径。针对航天器声试验技术成果,通过积极推动其向国际标准转化,最终使其立项并成为ISO 19924《空间系统——声试验》的国际标准。该标准是在航天器环境试验领域首个由中国发起、起草和主导的国际标准。文章将介绍声试验技术成果向国际标准转化的过程和方法,以分享经验,为我国积极参与国际标准化活动,提高标准国际化水平提供借鉴。     

BP神经网络反演核事故源项中重要参数的研究

核事故发生时,可靠、准确的源项信息能为应急防护行动措施决策提供数据支持。采用Matlab软件神经网络工具箱可以实现基于BP神经网络的核事故源项反演,为提高核事故源项反演计算的准确度,针对反演时的几个重要参数进行研究,包括隐含层节点数、训练函数、学习率和隐含层数。研究结果表明,在单隐含层神经网络结构情况下,存在着最优隐含层节点数,综合考虑训练时间和误差,本文选取隐含层节点数为50来对其他参数影响进行进一步研究;在相同参数设置条件下,训练函数Trainlm比Traingdm更适合数据量较小时的核事故源项反演,反演计算准确度更高,在节点数为50时训练时间缩短了近35%;高学习率以及双隐含层能有效地提高核事故源项反演的精度,但训练时间相对增加。     

基于遥测数据的卫星在轨飞行温度仿真算法研究

研究一种基于遥测数据的卫星在轨飞行温度仿真计算方法,以卫星热控边界温度遥测参数作为仿真计算模型基准温度参数,挖掘星上设备温度与安装边界（热控边界）温度之间的数值定量关系,形成卫星温度关系数值矩阵。通过基准温度遥测数据与卫星温度关系数值矩阵之间数值运算,实现卫星在轨飞行温度仿真预计,计算误差小于2.5℃。     

Aerodynamic design of tractor propeller for high-performance distributed electric propulsion aircraft

Aiming to maximize the aerodynamic performance of the Distributed Electric Propulsion (DEP) aircraft, a hybrid design framework which focuses on the aerodynamic performance of the propeller/wing integration has been developed and validated numerically. Variable-fidelity modelling for propeller aerodynamics has been used to achieve computational efficiency with reasonable accuracy. By optimizing the aerodynamic loading distributions on the tractor propeller disk, the induced slipstream is redistributed into a form that is beneficial for the wing downstream, based on which the propeller blade geometry is generated through a rapid inversed design procedure. As compared with the Minimum Induced Loss (MIL) propeller at a specified thrust level, significant improvements of both the lift-to-drag ratio of the wing and the propeller/wing integrated aerodynamic efficiency is achieved, which shows great promise to deliver aerodynamic benefits for the wing within the propeller slipstream without any additional devices.     

Full blended blade and endwall design of a compressor cascade

In the current state-of-the-art, high-loss flow in the endwall significantly influences compressor performance. Therefore, the control of endwall corner separation in compressor blade rows is important to consider. Based on the previous research of the Blended Blade and EndWall (BBEW) technique, which can significantly reduce corner separation, in combination with a non-axisymmetric endwall, the full-BBEW technique is proposed in this study to further reduce the separation in endwall region. The principle of the unchanged axial passage area is considered to derive the geometric method for this technique. Three models are further classified based on different geometric characteristics of this technique: the BBEW model, Inclining-Only EndWall (IOEW) model, and full-BBEW model. The most effective design of each model is then found by performing several optimizations at the design point and related numerical investigations over the entire operational conditions. Compared with the prototype, the total pressure loss coefficient decreases by 7%–9% in the optimized full-BBEW at the design point. Moreover, the aerodynamic blockage coefficient over the entire operational range decreases more than the other models, which shows its positive effect for diffusion. This approach has a larger decrease at negative incidence angles where the intersection of the boundary layer plays an important role in corner separation. The analysis shows that the blended blade profile enlarges the dihedral angle and creates a span-wise pressure gradient to move low momentum fluid towards the mainstream. Furthermore, the inclining hub geometry accelerates the accumulated flow in the corner downstream by increasing the pressure gradient. Overall, though losses in the mainstream grow, especially for large incidences, the full-BBEW technique effectively reduces the separation in corners.     

面向绕月交会对接的同波束VLBI研究

针对"嫦娥5号"(CE-5)探测器间高精度相对测量需求,设计了我国深空干涉测量处理中心框架下的同波束VLBI处理算法,分析了X波段同波束VLBI相位解模糊条件和结果;通过引入群时延辅助的相位干涉技术,大幅抑制了干涉时延随机误差,为同波束VLBI中相位解模糊提供了先验条件;利用CE-5对接实测数据验证了本文工作的有效性,为CE-5任务同波束VLBI的实施奠定了基础。     

圆柱形霍尔推力器轮辐效应试验研究

为了研究圆柱形阳极层霍尔推力器运行过程中的轮辐效应〖BF〗（〖BFQ〗rotatingspoke〖BF〗）〖BFQ〗旋转频率在相关工作参数影响下的变化规律,找出抑制轮辐效应的方法,采用了将环形阳极分成独立两段的设计方案,通过观测两个独立阳极段之间的信号随放电电压、工质输送速率等参数的变化来定性定量开展试验研究。试验观测结果表明,该推力器在运行过程中,随着放电电压和气压的增加,轮辐效应旋转频率相应地获得提高;在近阳极区域的轮辐效应是普遍存在的,即使是在高电压的条件下;轮辐效应旋转频率主要在10~45kHz;轴向电流振荡在独立阳极段总电流中约占50%。减小工质流量,降低放电电压有利于抑制轮辐效应。     

含局部缝隙与重叠特征的Mindlin板等几何分析

等几何分析(IGA)中非均匀有理B样条(NURBS)被同时用作计算机辅助设计(CAD)中的建模工具以及有限元分析(FEA)中的逼近函数。NURBS模型中常见的缝隙和重叠问题使得分析变得困难。基于Mindlin板理论,对含有缝隙与重叠部分的NURBS模型进行等几何分析,采用Nitsche方法处理模型交界面上的非协调问题,并通过标准数值仿真算例的计算结果与解析解对比验证方法的可行性。研究结果表明:基于Nitsche的等几何方法可以用来对含局部缝隙与重叠特征的非协调Mindlin板模型进行分析;NURBS次数越高,等几何分析计算结果越精确,并且收敛速度越快。