三维化学非平衡粘性激波层流场数值模拟

本文通过引进主流贴体坐标 ,将粘性激波层概念推广到三维流场 ,得到了三维粘性激波层方程 ;应用空间推进与总体迭代相结合的求解方法 ,对三维化学非平衡粘性激波层流场进行了数值模拟     

核动力装置热工水力运行分析程序中的堆芯物理模型

提出了一套用于微机版船用核动力装置热工水力运行分析程序的堆芯物理模型 ,该模型既能较逼真地描述实际的物理过程 ,又能满足运行实时性要求和运行监督所要求的计算精度     

槽头式野战管线水击波速计算方法研究

按照弹性水击理论,管线内发生水力瞬变时,其水击波速取决于管子的弹性、流体的可压缩性和管子受约束的情况。对于给定的输送介质,焊接式固定输油管线的水击波速是一个常数。而槽头式野战管线采用连接器连接,胶圈密封,这种特殊的连接方式改变了管子整体的弹性摸量,从而使水击波速的常规计算方法不再适用。本文研究了野战管线连接器连接方式时水击波速的影响,实验研究了在受到约束时,橡胶的弹性模量随所受压力的变化而变化的规律,推导出野战管线水击波速平均计算方法,推导的公式表明:与焊接式固定管线不同,野战管线的水击波速随管线内压力的增大而增大。     

槽头式野战管线水击波速测量研究

液体管道的水击波速受流体压力、温度、分子结构、含气量及管线几何尺寸、管材等因素的影响,准确地确定管线的水击波速是一个相当困难的问题,通过实验测量水击波速是一个常用方法。管线水击波速的常用测量方法有波前法和周期法。综合运用波前法和周期法,设计了实验测量野战管线的水击波速,并将实验结果与笔者先前提出的水击波速计算公式的计算结果作了对比,验证了公式的有效性。     

空间通信中影响电波传播的因素分析

航天技术和网络通信技术的发展使卫星间、卫星与地面之间的组网越来越具有可行性和现实需要,为探索其组网方式,对该网的物理层特性进行系统研究,对空间链路中可能影响电波传播的各种因素进行了分析和总结,首先分析了自由空间、大气、电离层等一般因素,其次还分析了天线、空间环境、敌方攻击等特殊因素的影响,为确保航天通信的可靠性和网络管理的有效性提供了理论依据。     

单基发射药的热自燃数值模拟与其剩余能量变化研究

建立了单基发射药柱热自燃的数学模型 ,根据模型利用数值模拟的方法计算了单基发射药的中心温度与其剩余能量 ,并对中心温度的模拟结果与实验结果进行了比较。解决了其热分解动力学参数的非唯一性问题 ,为装填有单基发射药各种弹药的热自燃计算提供了依据     

Modeling of the whole process of shock wave overpressure of free-field air explosion

The waveform of the explosion shock wave under free-field air explosion is an extremely complex problem. It is generally considered that the waveform consists of overpressure peak, positive pressure zone and negative pressure zone. Most of current practice usually considers only the positive pressure. Many empirical relations are available to predict overpressure peak, the positive pressure action time and pressure decay law. However, there are few models that can predict the whole waveform. The whole process of explosion shock wave overpressure, which was expressed as the product of the three factor functions of peak, attenuation and oscillation, was proposed in the present work. According to the principle of explosion similarity, the scaled parameters were introduced and the empirical formula was absorbed to form a mathematical model of shock wave overpressure. Parametric numerical simulations of free-field air explosions were conducted. By experimental verification of the AUTODYN numerical method and comparing the analytical and simulated curves, the model is proved to be accurate to calculate the shock wave overpressure under free-field air explosion. In addition, through the model the shock wave overpressure at different time and distance can be displayed in three dimensions. The model makes the time needed for theoretical calculation much less than that for numerical simulation.     

超压气球上升过程温度与动力学特性仿真分析

针对带加强筋的超压气球,分析上升过程热环境及受力状态,建立热力学与动力学模型并分析其耦合关系。基于MATLAB开发仿真程序,对超压气球进行仿真分析。分析了气球上升过程中高度、速度、温度变化特性,数据表明上升过程中的热力学环境和动力学特性都对球内气体温度有重要影响,气球上升速度和球内气体温度相互耦合并与自由浮力系数存在相关性。飞行试验实测数据验证了仿真结果的准确性。理论分析结果和仿真模型可为后续超压气球设计和飞行试验提供指导。     

A fast-running method for blast load prediction shielding by a protective barrier

This study presents a simplified blast load prediction method on structures behind a protective barrier. The proposed method is basically an empirical approach based on Kingery-Bulamsh (K-B) chart and finite element (FE) analysis results. To this end, this study divides the structure into three regions by three critical points. Blast loads at each critical point can be calculated based on K-B chart and an approximation according to FE analysis results. Finally, peak reflected overpressure and impulse distributed on the structure can be approximately estimated by linearly connecting blast loads at each critical point. In order to confirm a feasibility of the proposed method, a series of numerical simulations were carried out. The simulation results were compared with FE analysis results which are presented in the open literature. From such comparisons, it was found that the proposed method is applicable to predict blast loads on structures behind a protective barrier.     

Experimental study of transient pressure wave in the behind armor blunt trauma induced by different rifle bullets

Pressure wave plays an important role in the occurrence of behind armor blunt trauma (BABT), and ballistic gelatin is widely used as a surrogate of biological tissue in the research of BABT. Comparison of pressure wave in the gelatin behind armor for different rifle bullets is lacking. The aim of this study was to observe dynamic changes in pressure wave induced by ballistic blunt impact on the armored gelatin block and to compare the effects of bullet type on the parameters of the transient pressure wave. The gelatin blocks protected with National Institute of Justice (NIJ) class III bulletproof armor were shot by three types of rifle bullet with the same level of impact energy. The transient pressure signals at five locations were recorded with pressure sensors and three parameters (maximum pressure, maximum pressure impulse, and the duration of the first positive phase) were determined and discussed. The results indicated that the waveform and the twin peak of transient pressure wave were not related to the bullet type. However, the values of pressure wave’s parameters were significantly affected by bullet type. Additionally, the attenuation of pressure amplitude followed the similar law for the three ammunitions. These findings may be helpful to get some insight in the BABT and improve the structure design of bullet.