空间数据系统发展的三个阶段

提出把空间数据系统的发展历程分为三个阶段：第一阶段是面向信道传输,主要解决数据如何在空间链路上有效可靠传输;第二阶段是面向数据源,主要解决如何自适应不同数据源的传输要求。这两个阶段的技术已经成熟并应用。文章预测,空间数据系统将走上第三阶段,即面向数据用户的体制,到那时用户可以根据自己的需求,主动从空间分布式数据库中获取数据。文章重点阐述了第三阶段的新概念设想,它的第一步是云遥测,然后进一步建成支持交互的空间云数据系统。     

PIV 技术测量振荡射流流场

利用以大功率双脉冲激光器为光源的ＰＩＶ技术，测定了由扁平射流和尖劈组成的二维振荡射流流场。实验结果表明，射流喷嘴与尖劈之间存在交错的、旋转方向相反的涡街，从而在尖劈两侧形成压力扰动。这种压力扰动波与不稳定射流的相互作用是整个系统产生流体振荡的原因。此外，还分析了射流喷嘴与尖劈之间的距离对流场的影响规律。     

Satellite Observations of Natural and Anthropogenic Aerosol Effects on Clouds and Climate

Anthropogenic aerosols affect the climate system and the hydrological cycle. The net effect of aerosols is to cool the climate system, directly by reflecting sunlight to space, and indirectly by increasing the brightness and cover of clouds that in turn also reflect more sunlight to space. The uncertainty in the aerosol effect on climate is 5 times greater than that of the greenhouse gases. The reason for this is the short aerosol lifetime and chemical complexity, that makes it difficult to represent the global aerosol budget from surface or aircraft measurements. Satellites provide daily global information about the aerosol content, generating large statistics with excellent regional and global representation of the aerosol column concentration, and differentiating fine from coarse aerosol. Here we use observations performed with the MODIS instrument onboard the Terra and Aqua satellites to differentiate natural from anthropogenic aerosols, and to measure the aerosol effect on cloud properties and on the reflectivity of sunlight.     

姿控发动机内流场及高空羽流流场的DSMC一体化数值模拟

通过引入“平衡抽样方法”有效解决了DSMC求解近连续流区所遇到的碰撞顶计算效率问题;对于过渡流及自由分子流区,构造了适合于DSM仿真的分子碰撞传能模型并配置了一种光滑过渡以减少误差的权函数。在此基础上首次实现了对姿控发动机喷管内流场及包括倒流区在内的高空弱流流场的DSMC方法一体化数值模拟。     

Predicting the vulnerability of spacecraft components: Modelling debris impact effects through vulnerable-zones

The space environment around the Earth is populated by more than 130 million objects of 1 mm in size and larger, and future predictions shows that this amount is destined to increase, even if mitigation measures are implemented at a far better rate than today. These objects can hit and damage a spacecraft or its components. It is thus necessary to assess the risk level for a satellite during its mission lifetime. Few software packages perform this analysis, and most of them employ time-consuming ray-tracing methodology, where particles are randomly sampled from relevant distributions. In addition, they tend not to consider the risk associated with the secondary debris clouds. The paper presents the development of a vulnerability assessment model, which relies on a fully statistical procedure: the debris fluxes are directly used combining them with the concept of vulnerable zone, avoiding the random sampling the debris fluxes. A novel methodology is presented to predict damage on internal components. It models the interaction between the components and the secondary debris cloud through basic geometrical operations, considering mutual shielding and shadowing between internal components. The methodologies are tested against state-of-the-art software for relevant test cases, comparing results on external structures and internal components.     

一种基于云模型优化的飞行器参数辨识算法

极大似然估计方法(ML)在飞行器参数辨识中得到了广泛应用,该方法需要预先推导灵敏度方程,进而求解灵敏度矩阵,在应用过程中比较繁杂,且容易陷入局部最优。提出一种基于云模型优化的飞行器参数辨识算法,根据极大似然估计原理,利用云模型的优化理论对极大似然函数进行优化,从而得到待辨识参数值。该算法不必推导灵敏度矩阵,对初值要求不高,应用便捷,且保留了云模型优化的特点,收敛速度较快、不易陷入局部最优。以Twin Otter飞机为例对算法进行验证。结果表明:算法易于实现、辨识结果精度较高、收敛速度较快,不易陷入局部最优。     

气-气喷注器混合场流动显示

研究气-气喷注器气流流动混合过程,基于粒子图像测速仪(PIV)实验系统,采用对两股气流分别示踪的方法,对三种典型结构的气一气喷注器混合场开展了实验研究.实验结果验证了这种实验方案的可行性,结合轴截面和横截面的流场分布测量,得到了同轴离心式、同轴直流式、互击式气一气喷注器气流混合过程的主要作用因素和混合场的分布特征.     

大型不规则椭球回转面的曲面重构与仿真加工

提出了大型不规则椭球回转面的一种新的曲面重构与仿真加工方法。基于GeomagicStudio软件,处理大型不规则椭球回转面的采集数据点云,重构了实测曲面的等距面模型;采用Pro/E对实测曲面的等距面模型进行等距操作,生成实测曲面模型;利用GeomagicQualify软件对实测曲面的等距面模型相对于原始数据点云,以及实测曲面模型相对于理论曲面模型进行误差分析;最后利用Pro/NC模块对实测曲面模型进行数控编程和仿真加工。研究结果表明,该方法提高了大型不规则椭球回转面的曲面重构精度,生成的标准数控加工程序具有可移植性,解决了原加工方法对专用设备的依赖。     

热发射测速技术

本文叙述了一种通过探测高温两相流中热粒子的热辐射来测量粒子速度的热发射测速技术,该技术曾多次用于测量电弧加热器射流和火箭弹尾喷火焰中的粒子速度,取得了比较满意的结果。     

高速直升机旋翼/螺旋桨/机身干扰特性分析

研究双拉力螺旋桨复合式高速直升机的气动特性可以为高速直升机的设计及气动优化提供参考。基 于动量源方法构建针对双拉力螺旋桨复合式高速直升机旋翼/螺旋桨/机身干扰特性数值计算及分析方法;对 孤立旋翼、旋翼/机身干扰进行算例验证;应用所构建的方法对双拉力螺旋桨高速复合式直升机悬停及前飞状 态的干扰流场进行数值模拟,分析机身对悬停流场影响及不同前飞速度旋翼/螺旋桨/机身干扰特性。结果表 明:悬停时机身对气流的阻塞作用降低了旋翼的升力,螺旋桨对旋翼下洗气流的加速作用使旋翼升力提高;低 速前飞时旋翼/螺旋桨/机身干扰较大,主要体现在旋翼下洗流造成螺旋桨滑流偏折以及机翼上表面压力分布 增大,高速前飞时这种干扰较小。