一种基于人工扰动电离层的通信对抗技术研究

研究了扰动后的电离层对不同波段的电磁波传播的影响,并探讨了该项技术在通信对抗上的具体应用。结果表明:受扰电离层可以引导VLF波进行"哨声模式"传播,进而实现对潜通信;可以使得HF波传播轨迹发生偏转、逃逸、聚焦和散焦,进而实现短波干扰;可以降低卫星通信频率,进而利用新波段实现卫星保密通信,同时还能产生透镜效应,对实现卫星通信的VHF电波产生额外增益,增强通信效果。     

基于无线信道仿真仪的双星定位半实物仿真

构建无源电子侦察双星时差频差定位系统半实物仿真平台,以雷达及通信信号为侦察对象,采用无线信道仿真仪模拟产生两颗同轨卫星接收地面同一目标辐射源发射信号,通过数字接收机VPX机箱中的两块板卡同步接收信号数据,进行实时处理。实验表明,构建的半实物仿真平台,与纯数字仿真相比,能够准确、实时、有效地反映双星时差频差定位系统的性能。     

基于脉冲调制的卫星射频测试系统变频链路群延时参数校准

群延时参数是变频链路的关键指标之一,本文主要研究卫星射频测试系统变频链路群延时参数校准方法。卫星射频测试系统是卫星地面测试设备的重要组成部分,其变频链路的群延时特性对卫星测距功能测试及信号的传输质量具有重要意义;从群延时定义出发,讨论了群延时的测试原理和方法,提出并实现基于软件无线电技术的调制法测量群延时,该方法特别适用于内本振无法接入的变频系统群时延的精确测量;详细说明调制法的基本原理并研建校准装置。实验表明调制法测量群延时具有较高的精度。     

月球电离层掩星探测研究

日本SELENE/KAGUYA探测任务提供了研究月球电离层的机会。采用无线电掩星探测技术和趋势外推算法,消除地球电离层和行星际等离子体的干扰影响,残余的信号相位信息的变化反映了月球电离层的信息,估算出月球周围附近近似对称分布的稀薄电离层中电子总含量(TEC)约为每立方米10-14个。     

Water movement on the convex surfaces of porous media under microgravity

A plant growth system for crop production under microgravity is part of a life supporting system designed for long-duration space missions. A plant growth in soil in space requires the understanding of water movement in soil void spaces under microgravity. Under 1G-force condition, on earth, water movement in porous media is driven by gradients of matric and gravitational potentials. Under microgravity condition, water movement in porous media is supposed to be driven only by a matric potential gradient, but it is still not well understood. We hypothesized that under microgravity water in void spaces of porous media hardly moved comparing in void spaces without obstacles because the concave surfaces of the porous media hindered water movement. The objective of this study was to investigate water movement on the convex surfaces of porous media under microgravity. We conducted parabolic flight experiments that provided 20–25?s of microgravity at the top of a parabolic flight. We observed water movement in void spaces in soil-like porous media made by glass beads and glass spheres (round-bottomed glass flasks) in the different conditions of water injection under microgravity. Without water injection, water did not move much in neither glass beads nor glass spheres. When water was injected during microgravity, water accumulated in contacts between the particles, and the water made thick fluid films on the particles surface. When the water injection was stopped under microgravity, water was held in the contacts between the particles. This study showed that water did not move upward in the void spaces with or without the water injection. In addition, our results suggested that the difficulty of water movement on the convex (i.e. particle surfaces) might result in slower water move in porous media under microgravity than at 1G-force.     

折流燃烧室间接点火过程研究

为了研究某折流燃烧室的间接点火过程,对三种不同初始火核位置的燃烧室进行大涡模拟计算,并结合燃烧室点火试验和性能试验进行验证。研究结果表明：折流燃烧室的主燃区可分为三个区域,分别是主回流区、横跨气流区以及次回流区;燃烧室点火成功的关键在于初始火炬进入次回流区;通过大涡模拟计算得到的贫油点火边界油气比与点火试验结果的绝对误差在0.004以内。     

旋流数对分层旋流流场影响的大涡模拟研究

为了深入理解分层旋流流场特征和燃烧稳定性,采用OpenFOAM对分层旋流燃烧器的冷态和燃烧流场进行了大涡模拟。研究了旋流数对分层旋流流场结构和非稳态特性的影响。采用Q准则显示了流场中的瞬时涡结构;利用功率谱分析了流场中的进动特征。结果表明：在冷态工况下,旋流对回流区的位置和大小影响较小。随着旋流数增大,出口气流受到旋流诱导的离心作用,流动发散,流场扩张角变大,流场下游出现二次回流区。平均流场的三维流线与螺旋涡在空间中均表现成正交关系,表明螺旋涡是由剪切层Kelvin-Helmholtz不稳定性产生。在燃烧工况下,随着旋流数增大,回流区的面积增大,平均温度分布不断沿径向扩张,火焰锋面脉动增强,涡旋发生破碎的位置明显向上游移动。     

大弯角开槽叶栅槽道位置与结构研究

为拓宽大弯角扩压叶栅可用攻角范围,优化叶片吸力面流动分离结构,本文以一大弯角叶栅为研究对象,对叶片采用压力面到吸力面打通的双“C”型槽道结构处理,在保持槽道长度及其他参数不变的条件下,设置85%、80%、75%、70%轴向弦长四个出口位置研究槽道出口位置对叶栅性能的影响。研究发现,特定攻角下,槽道出口位于吸力面角区分离线起始点之后、尾缘分离线之前,对吸力面流动分离的控制效果较佳;在全攻角范围,槽道出口则取在0o攻角对应较佳出口位置为好。为减小槽道内总压损失,本文提出了一种“SC”型槽道改进结构,在80%轴向弦长槽道出口位置处与双“C”型槽道以及原型叶栅进行对比。结果表明,“SC”型槽道结构相比于双“C”型槽道结构,叶栅尾迹损失及槽道内总压损失减少,槽道出口射流速度提高,叶片尾缘处静压升高;相比于原型叶栅则能有效降低其在全攻角范围内的总压损失,基本消除叶片吸力面附面层分离,削弱角区分离,提高叶栅的扩压能力。