几种常用格式和湍流模型在高速流动中的适用性研究

针对高超声速飞行器中存在的强激波、激波/边界层干扰、分离、湍流等复杂流动现象,对比分析了当前计算流体力学中的主要空间离散格式及湍流模型,发现不同格式对强激波的分辨率基本相同,Roe和LDE(low diffusion E-CUSP(convective upwind split pressure))格式对摩擦因数和传热系数的模拟优于其他格式;S-A(Spalart-Allmaras)一方程湍流模型计算的摩擦因数比k-ωSST(shear stress transport)两方程湍流模型高10%左右,而后者预测的分离区约为前者的2倍,且分离点靠前.     

激光陀螺四位置寻北仪提高精度方法

为消除激光陀螺零偏和常值漂移的影响,采用四位置方案来实现高精度寻北。本文简述了单轴激光陀螺四位置寻北方案,给出了陀螺敏感轴与机体系前向偏差角标定方法,研究了寻北仪在倾斜基座下数据补偿算法。本文研究了由于在四个位置上电机转动不到位所引起的误差补偿算法。通过对寻北仪系统测试,采用电机转动不到位补偿后数据标准差降低了0.02º,激光陀螺寻北仪系统达到了高精度快速寻北的要求。     

空间核动力技术概览与发展脉络初探

在概略介绍现有技术方案基础上,初步探讨空间核动力技术的发展脉络,并分析其未来发展方向.基于固体核反应堆的空间核电源、核电推进及核热推进,是经过试验验证可行、具有一定技术基础并可预期实现空间应用的空间核动力技术.更先进的概念方案包括:基于气体核反应堆的核电源/核热推进、脉冲核爆推进、核裂变碎片推进等,它们的性能逐代跨越直至逼近理论极限.要充分利用核能的潜力,一方面需要提高单位质量核燃料的核能释放率,另一方面也需要减少核反应产物动能转换为无轨热运动的比率.核能潜力的充分利用需要以增加系统质量为代价.为满足未来宽广的空间任务需求,多物理机制驱动的大深度变工况一体化核能空间动力系统是未来必然发展趋势.     

精密复杂零件的工艺设计过程分析

针对航天控制产品精密复杂零件的工艺难点,以该类零件的工艺设计过程为主线,分别论述了材料定额编制、工艺路线设计以及工序设计过程中的注意事项和工艺方案设计方法,并以实例进行了简要说明。     

快速拉格朗日差分法在巷道锚杆支护计算中的应用

快速拉格朗日法是一种新型的数值计算方法。本文介绍了快速拉格朗日法的基本原理和分析过程；并将这种方法应用于巷道锚杆支护的计算中，对锚杆支护前后围岩的变形进行了对比。结果表明锚杆在控制围岩垂直方向的变形有明显的作用。     

HS—19型肖氏硬度计故障分析

从结构原理来分析故障的产生、发展、现象以及产生故障的排除方法。     

A Class of TVD Type Combined Numerical Scheme for MHD Equations With a Survey About Numerical Methods in Solar Wind Simulations

It has been believed that three-dimensional, numerical, magnetohydrodynamic (MHD) modelling must play a crucial role in a seamless forecasting system. This system refers to space weather originating on the sun; propagation of disturbances through the solar wind and interplanetary magnetic field (IMF), and thence, transmission into the magnetosphere, ionosphere, and thermosphere. This role comes as no surprise to numerical modelers that participate in the numerical modelling of atmospheric environments as well as the meteorological conditions at Earth. Space scientists have paid great attention to operational numerical space weather prediction models. To this purpose practical progress has been made in the past years. Here first is reviewed the progress of the numerical methods in solar wind modelling. Then, based on our discussion, a new numerical scheme of total variation diminishing (TVD) type for magnetohydrodynamic equations in spherical coordinates is proposed by taking into account convergence, stability and resolution. This new MHD model is established by solving the fluid equations of MHD system with a modified Lax-Friedrichs scheme and the magnetic induction equations with MacCormack II scheme for the purpose of developing a combined scheme of quick convergence as well as of TVD property. To verify the validation of the scheme, the propagation of one-dimensional MHD fast and slow shock problem is discussed with the numerical results conforming to the existing results obtained by the piece-wise parabolic method (PPM). Finally, some conclusions are made. This revised version was published online in August 2006 with corrections to the Cover Date.     

TEC differences for the mid-latitude ionosphere in both sides of the longitudes with zero declination

Based on measurements of ground-based GPS station network, differences of the mid-latitude ionospheric TEC in the east and west sides of North America, South America and Oceania have been analyzed in this paper. Results show that for nearly all seasons from 2001 to 2010 and in both sides of the longitudes with zero declination, there exist systematic differences for the mid-latitude ionospheric TEC in the regions mentioned above and the features of these differences markedly depend upon the local time but less depend upon seasons and the level of solar activity. Theory analysis shows that the longitude variations of both declination and zonal thermospheric winds are one of important factors to cause differences of the mid-latitude ionospheric TEC in both sides of the longitudes with zero declination.     

求解Euler／Navier—Stokes方程的有限体积龙格库塔方法

提出了一个求解定常Ｅｕｌｅｒ／Ｎａｖｉｅｒ－Ｓｔｏｋｅｓ方程的计算方法,求解的主管方程是积分形式的Ｅｕｌｅｒ方程或雷诺平均的Ｎａｖｉｅｒ－Ｓｔｏｋｅｓ方程,计算方法是有限体积多步龙格库塔方法,通过在格式中加入自适应的二阶加四阶人工粘性项以保证数值计算的稳定性,用空间变时间步长、焓阻尼来加速定常问题的收敛速度。     

时间发展可压化学反应混合层直接数值模拟

基于一个简化的单步不可逆燃烧动力学模型,对时间发展二维可压化学反应平面混合流场,实现了高精度迎风紧致有限差分直接数值模拟。研究了化学反应放热与流体混合运动间的耦合作用,分析了前者对可压混合层厚度、拟序结构及产物生成率等方面的影响。