小推力液体火箭发动机燃烧与传热数值仿真研究

针对边区液膜冷却型小推力液体火箭发动机,引入VOF模型模拟冷却液膜,使用数值仿真手段计算了发动机推力室突扩构型对燃烧效率与传热特性的影响.对比可见计算结果是可靠的,计算表明无量纲台阶高度H*从0.111增加到0.222,燃烧效率增加0.35个百分点、燃烧效率随无量纲台阶长度L*增加变化较小、另外传热特性受H*与L*的影响都不大.这表明在扩张型推力室中,燃烧效率下降的主要原因是壁面附近的气态MMH无法与氧化剂有效混合.     

高灵敏度GPS软件接收机捕获算法

针对传统方法难以实现室内环境下GPS信号的捕获以及传统弱信号捕获算法的一系列弊端,介绍了一种新的捕获算法。由于数据段通过“先累加后相关”的方式进行相干积分可以减少运算量,以此方法改进的半位捕获法进行数据段选择可以避免导航数据位翻转,并且改进后的差分相干积分能够减小非相干积分造成的“平方损失”和改善信噪比,融合上述优点,提出了一种新的算法,为高灵敏度GPS软件接收机的实现提供了保证。仿真结果表明,此算法极大的提高了接收机的捕获性能,并且能够快速捕获到载噪比低至25dB/Hz的微弱信号。     

脉冲防暴水炮非淹没气体射流的RANS和LES模拟

为提高脉冲防暴水炮刺激剂的雾化水平,必须提高射流的出口速度和改善雾化带形状,而这些因素与管内非淹没气体射流的湍流流场息息相关。为准确描述湍流分布和水柱加速过程,对脉冲防暴水炮的非淹没气体射流进行了RANS和LES模拟。结果表示LES模型较RANS的标准k-ε模型能更为精确地描述湍流分布和管内非淹没气体射流速度的各向异性。但两者对于水柱加速过程的描述基本一致,只是由于LES模型的气液参混较为充分,气液速度相差较小,而可能导致两模型气体在喷口膨胀规律的异同。LES模型气液界面复杂,是用于研究管内气液流型的理想方法。该方法为三维模拟打下了较好的基础,所得结果可以作为管外射流研究的初始条件。     

信息熵和判断矩阵的专家聚类赋权法

为了降低专家聚类赋权过程中由排序向量引起的不确定性和判断矩阵引起的矛盾性,提高权值分配的精确性,提出了基于信息熵和判断矩阵相结合的专家聚类赋权法。该方法采用聚类分析原理,对排序向量进行分类,根据分类结果、信息熵值和一致性比率确定专家权重系数。实例分析表明:基于信息熵和判断矩阵相结合的专家聚类赋权法在具体应用中得到的结果离期望值更近,说明该算法有效可行。     

防御技术的新发展和新问题

讨论了在体系对抗条件下,导弹防御系统所碰到的新问题和面临这些问题应当研究的新技术。这些新技术不仅包括精确化、小型化和武器网络化,而且也包括目标识别、光电对抗和对抗效费比等。     

液晶聚硅氧烷/硅油稀流体电流变效应的研究

利用Williamson醚合成方法制备了烯丙氧(对乙氧基)联苯,并以其为单体采用催化加聚合成了侧链型联苯聚硅氧烷,并对其结构进行了表征,证实该物质具有液晶性.研究了液晶聚硅氧烷/硅油稀流体的电流变效应,研究发现:该流体具有液晶型电流变液剪切变稀的现象;由剪切应力与剪切速率的关系可以看出,在2kV/mm电场作用下随着剪切速率的增大,产生的剪切应力越大;随着侧链液晶聚硅氧烷/硅油流体重量比的增大,在2kV/mm电场的作用下该流体的剪切应力也增大.     

星载双基地SAR系统模糊性

针对星载双基地SAR由双基地几何关系引入的新问题,提出了计算其模糊比的新方法和近似分解方法。利用此方法通过仿真计算对星载双基地SAR模糊性变化规律做了进一步研究。结果表明,因接收天线的面积限制,与其伴随飞行的大卫星SAR相比,模糊性问题更为严重,但变化规律基本一致。比较而言,由于小卫星天线尺寸在高度上更接近大卫星天线,在距离模糊比上相对大卫星SAR抬高得不多,而在方位模糊比上抬高较大。     

油水两相分层流层流流速分布计算分析

利用剪切力比模型,进一步讨论了油水两相分层流层流流动的速度分布规律,将水相流速假设为抛物线形式分布与实验结果有较大偏差,将水相分为拖曳和返流两段更接近实际情况,模型所得水相计算结果更接近实验数据。指出剪切力比模型能否适合于油水两相分层流动计算理论需要更多实验结果验证。     

Electronic warfare in the optical band: Main features,examples and selected measurement data

The paper presents the possibilities of, and methods for, acquiring, analysing and processing optical signals in order to recognise, identify and counteract threats on the contemporary battleground. The main ways electronic warfare is waged in the optical band of the electromagnetic wave spectrum have been formulated, including the acquisition of optical emitter signatures, as well as ultraviolet (UV) and thermal (IR) signatures. The physical parameters and values describing the emission of laser radiation are discussed, including their importance in terms of creating optical signatures. Moreover, it has been shown that in the transformation of optical signals into signatures, only their spectral and temporal parameters can be applied. This was confirmed in experimental part of the paper, which includes our own measurements of spectral and temporal emission characteristics for three types of binocular laser rangefinders. It has been further shown that through simple registration and quick analysis involving comparison of emission time parameters in the case of UV signatures in “solar-blind” band, various events can be identified quickly and faultlessly. The same is true for IR signatures, where the amplitudes of the recorded signal for several wavelengths are compared. This was confirmed experimentally for UV signatures by registering and then analyzing signals from several events during military exercises at a training ground, namely Rocket Propelled Grenade (RPG) launches and explosions after hitting targets, trinitrotoluene (TNT) explosions, firing armour-piercing, fin-stabilised, discarding sabots (APFSDS) or high explosive (HE) projectiles. The final section describes a proposed model database of emitters, created as a result of analysing and transforming the recorded signals into optical signatures.     

Numerical investigation on cooling performance of filter in a pyrotechnic gas generator

As a key part of the pyrotechnic gas generator,the filter not only removes the particulate matter but also cools the hot gas to a safe level.This paper aims to improve the understanding of the basic heat and flow phenomenon in the gas generator.The pyrotechnic gas generator is modelling by a simplified filter structure with fiber arrays.A finite-volume model of the heat and fluid flow is proposed to simulate the detailed multi-dimensional flow and energy conversion behaviors.Several verification results are in good agreement with data in different references.Simulation results demonstrate that the filter can not only absorb heat from the gas but also cause the high intensity enhancement of the heat transfer.The per-formance difference between inline and staggered arrays is also discussed.The findings of the study put a further prediction tool for the understanding and design of the filter system with fibers.