深空探测器热控系统设计方法研究

针对国外深空探测器热控系统设计方法进行了调研和综述,并在此基础上提出了深空探测器的热控系统设计特点,为我国深空探测器热控系统的设计提供参考。     

高速旋转部件在载人航天器热控系统中的应用

文章阐述了高速旋转部件在载人航天器热控系统中的应用现状,提出了增长部件寿命、改进系统可靠性的建议并介绍了磁悬浮技术。     

新型双酚A苯醚型双马来酰亚胺单体制备与性能

以顺丁烯二酸酐(MA)和2,2'-双[4-(4-氨基苯氧基)苯基]丙烷(BAPP)为原料,甲苯、N,N-二甲基甲酰胺(DMF)为溶剂,采用共沸蒸馏法合成了2,2'-双[4-(马来酰亚胺基苯氧基)苯基]丙烷(BMP-BMI).采用红外光谱、核磁共振、质谱和元素分析对产物进行了表征.高效液相色谱结果表明,产物的纯度较高,达...     

广播电视卫星高精度时间传递

介绍一种利用我国广播电视卫星进行高精度时间传递的方案,建立多个卫星电视时间发播系统,利用广播电视卫星进行双向时间比对,实现远距离卫星地面站之间的时间同步。通过测量地面站到卫星之间的距离,可实时计算出卫星的坐标位置,用户根据接收到的时间及卫星位置信息,实施高精度定时。     

螺旋桨目标的雷达回波信号相位解缠技术

建立了螺旋桨的雷达回波信号模型。对模型回波信号的相位混叠效应进行了理论分析,讨论了回波相位混叠效应出现的原因,通过模型改进获得了螺旋桨的雷达回波相位的理论表达式。提出插值与可调门限相结合的算法和自适应数值积分算法两种相位解缠方法,分别用于桨叶数为偶数和奇数时的相位解缠。仿真结果表明:两种算法有较高的精度。     

射频阵列仿真系统的目标位置精度分析

射频阵列仿真系统是一种比较理想的导弹武器系统抗干扰试验环境,目标位置精度是射频阵列仿真系统的关键指标。阐述了影响目标位置精度的主要原因,并结合测量数据对其进行分析,为工程应用提供了参考。     

利用流线法决定绕扁长椭球流动分离的位置

本文按照流线法把所测量的扁长椭球的压力分布用于决定涡层型三维流动分离,按边界层边缘处流线会聚的位置近似地决定分离线的位置。作为算例,计算了扁长椭球体在α=30°状态下的绕流,并在水洞中作了流场显示,数值结果和实验结果的对比表明,二者十分一致。分析表明,涡层型分离不仅与壁面极限流线的收敛有关,而且还与边界层边缘处流线会聚有关,前者的出现并不是引起涡层型流动分离的充要条件。     

Radio fine structures in dm–cm wavelength range associated with magnetic reconnection processes

Radio bursts with fine structures in decimetric–centimetric wave range are generally believed to manifest the primary energy release process during flare/CME events. By spectropolarimeters in 1–2 GHz, 2.6–3.8 GHz, and 5.2–7.6 GHz at NAOC/Huairou with very high temporal (1.25–8 ms) and spectral (4–20 MHz) resolutions, the zebra patterns, spikes, and new types of radio fine structures with mixed frequency drift features are observed during several significant flare/CME events. In this paper we will discuss the occurrence of radio fine structures during the impulsive phase of flares and/or CME initiations, which may be connected to the magnetic reconnection processes.     

安全阀性能检测系统的测量不确定度

分析了安全阀性能检测系统中的主要误差因素，对安全阀动作性能和排量系数的测量不确定度进行了初步计算。     

A novel approach for predicting inlet pressure of aircraft hydraulic pumps under transient conditions

Cavitation caused by insufficient suction is a major factor that influences the life of aircraft pumps. Currently, pressurizing the tank can solve the cavitation problem under steady large-flow conditions. However, this method is not always effective under transient conditions (from zero flow to full flow in a very short time). Moreover, to apply and design other measures, such as a boost impeller, the suction dynamics during the transient period must be investigated. In this paper, a novel approach based on the pressure wave propagation theory is proposed for predicting the inlet pressure of an aircraft pump under transient conditions. First, a dynamic model of a typical aircraft pump is established in the form of differential equations. Then, the transient flow model of the inlet line is described using momentum and continuity equations, and the governing equations are discretized by the method of characteristics and the finite difference method. The simulated results are in good agreement with the results from verification tests. Further simulation analysis indicates that the wave velocity and transient time may influence the inlet and reservoir pressure as well as the size of the inlet line. Finally, solutions for upgrading the inlet pressure are discussed. These solutions provide guidelines for designing inlet installations.