反导多传感器协同任务规划综述

针对反导作战多传感器协同任务规划的相关问题,结合反导作战的特点,探讨反导作战信息处理过程与多传感器协同任务规划的关系,并分析多传感器协同任务规划的内涵;在此基础上,梳理出多传感器协同任务规划涉及的关键技术,并综述多源信息综合处理、多传感器协同部署、协同跟踪、协同引导和协同识别等关键技术的研究现状;最后就多传感器协同任务规划的发展提出一些建议。     

高超声速飞行器舱内压力预测

针对高超声速飞行器独特的飞行状态及环境特点,对其舱体内部压力变化进行了预测研究。综述飞行器的被动式及主动式舱内压力控制系统特点,提出采用准一维等熵流公式结合计算流体动力学(CFD)进行舱内压力预测的方法,研究被动式充排气系统对舱内压力变化的影响,为高超声速飞行器充排气系统的设计提供了重要的参考和依据。     

低温推进剂地面加注系统冷量利用方案分析

为了降低低温推进剂损耗,提高利用效率,降低发射成本,提出了4套运载火箭低温推进剂地面加注系统的冷量利用方案。基于热力学原理,建立了非稳态数学模型,并以能量品质高低作为衡量方案优劣的标准,通过实例计算对比分析了各个冷量利用方案的可行性。研究得出4套冷量利用方案从热力学角度出发都是可行的,其中方案A和方案D最优,方案A可应用在目前现有低温推进剂地面加注系统中,而方案D则可应用于未来重型运载火箭低温推进剂地面加注系统之中。     

受轮缘密封结构影响的1.5级涡轮封严流与主流的相互作用以及轮缘密封间流动干扰

为探究动叶上游不同轮缘密封结构封严出流对1.5级涡轮端区流场及轮缘密封间流动干扰的影响区别,通过Shear Stress Transport （SST）湍流模型对无密封腔室,上游密封结构分别为简单斜向、简单径向,下游密封腔室为简单轴向的1.5级涡轮进行了非定常数值模拟。结果表明：轮缘密封间干扰使带径向密封结构模型的下游轮缘腔室内封严效率偏低,并增强了固有的非定常不稳定特性。上游密封结构变化对动叶和第2级静叶流动的影响差异分别位于35%、65%叶高范围内;径向密封结构增加了上游静叶的堵塞效应、动叶入口气流的欠偏转程度、叶根吸力面负荷与14%叶高以上的轮毂通道涡强度,并在第2级静叶入口处产生更多低频压力波动,使其尾缘脱落涡尺度增大但13%叶高以上的轮毂通道涡强度较弱。与无密封腔室相比,通入封严气体总量为主流流量的0.8%时,带斜向密封结构的1.5级涡轮气动效率降低了0.94%,且带径向密封结构的1.5级涡轮气动损失额外增加了0.17%。     

分腔流量比对涡轮曲端壁表面冷却特性实验

利用高速风洞及压敏漆（PSP）技术,研究了端壁表面不同分腔流量比对端壁表面的气膜冷却效率的影响。对比各个分腔在不同流量比下端壁表面的气膜冷却效率的详细分布发现：端壁表面的气膜冷却效率随着槽缝流（分腔1）流量比的增加而增大,随着槽缝喷射冷气流量的增加,冷气在端壁表面的覆盖范围变广,同时冷却效果也有所提升;随着端壁前部分腔（分腔2）冷气流量比的增加,叶栅通道喉部上游区域的冷却流体会出现明显的吹离壁面的情况,端壁表面的气膜冷却效率也会随之减小;端壁后部分腔（分腔3）冷气流量比对端壁表面的冷却效率的影响与分腔2类似。     

无人机用燃料电池阴极供气系统建模与控制

燃料电池因其高效、无污染、噪声小等特点,被认为是未来最具有潜力的无人机（UAV）用动力源,燃料电池阴极供气系统的控制技术是决定燃料电池系统性能和可靠性的关键。针对无人机用质子交换膜燃料电池（PEMFC）阴极供气系统,首先,考虑外界温度、压力、空气密度以及雷诺数等随高度变化的参数,建立了跨高度离心空压机模型并分析了其在不同高度下的工作特性,基于无刷直流电机反电势特征构建了高速空压机驱动电机模型。其次,通过计算燃料电池阴极氧气和氮气的动态分压获取了PEMFC电堆输出电压。设计了基于分数阶PI^λD^μ的过氧比和阴极气压控制方法,驱动电机采用有限集模型预测控制（MPC）实现快速的转矩响应,仿真结果表明设计的控制器可在无人机跨高度运行条件下实现过氧比的快速调节,同时维持阴极气压稳定,满足燃料电池阴极供气需求。     

Research on failure criterion of composite based on unified macro- and micro-mechanical model

A new unified macro- and micro-mechanics failure analysis method for composite structures was developed in order to take the effects of composite micro structure into consideration. In this method, the macro stress distribution of composite structure was calculated by commercial finite element analysis software. According to the macro stress distribution, the damage point was searched and the micro-stress distribution was calculated by reformulated finite-volume direct averaging micromechanics (FVDAM), which was a multi-scale finite element method for composite. The micro structure failure modes were estimated with the failure strength of constituents. A unidirectional composite plate with a circular hole in the center under two kinds of loads was analyzed with the traditional macro-mechanical failure analysis method and the unified macro- and micro-mechanics failure analysis method. The results obtained by the two methods are consistent, which show this new method’s accuracy and efficiency.     

苏通大桥实测强风湍流积分尺度的对比研究

湍流积分尺度是体现风特性的重要指标之一,而现场实测是获得工程结构准确可靠的风特性的唯一有效手段.本文利用苏通大桥结构健康监测系统(SHMS)采集的风特性数据库,选取该桥址区2008年夏季的“凤凰”、“海鸥”台风及冬季北风为样本进行强风特性分析.其中采用4种常用计算方法重点研究了桥址区强风的积分尺度,并对比了不同方法的计算结果以验证其可靠性.最后分析了湍流积分尺度随高度和平均风速等的变化规律.结果表明:湍流积分尺度与风速之间无确定关系,塔顶湍流积分尺度较跨中大.分析结果充实了苏通大桥风特性数据库,可为湍流积分尺度的分析计算提供参考,并为苏通大桥的强风环境和抗风评估提供了实测依据.     

Form-finding methods for deployable mesh reflector antennas

Deployable high-frequency mesh reflector antennas for future communications and obser- vations are required to obtain high gain and high directivity. In order to support these new missions, reflectors with high surface accuracy are widely required. The form-finding analysis of deployable mesh reflector antennas becomes more vital which aims to determine the initial surface profile formed by the equilibrium prestress distribution in cables to satisfy the surface accuracy requirement. In this paper, two form-finding methods for mesh reflector antennas, both of which include two steps, are pro- posed. The first step is to investigate the prestress design only for the cable net structure as the circum- ferential nodes connected to the supporting truss are assumed fixed. The second step is to optimize the prestress distribution of the boundary cables connected directly to the supporting truss considering the elastic deformation of the antenna structure. Some numerical examples are carried out and the simulation results demonstrate the proposed form-finding methods can warrant the deformed antenna reflector surface matches the one by design and the cable tension forces fall in a specified range.     

Passive inter-modulation scattering analysis of reflector considering contact nonlinearity

 Passive inter-modulation (PIM) is a form of nonlinear distortion caused by the inherent nonlinearities of the passive devices and components in RF/microwave system. It will degenerate the performance of communication system with broad-band channel and high-sensitivity receiver. Therefore, it is necessary to construct a model to simulate this process in order to predict the level of PIM. This paper is aimed at constructing some plate models with one-dimensional and two-dimensional contact nonlinearity sections illuminated by two-tone waves, and calculating the scattered field at a fixed-point in space using time-domain physical optics method. By taking fast Fourier transform (FFT), we get the spectrum of the scattered field and then analyze the generated PIM products. At the end of this paper, some numerical examples are presented to show the influence rules of the relative factors on PIM. The results indicate the variation of the level of PIM with the number of the nonlinear regions, the nonlinear spacing, and the incident power levels.