多孔介质中气体流量对流动阻力影响的实验研究

对空气在多孔介质(Pd/SiO2颗粒催化剂)中的流动阻力特性进行了冷态实验,研究了气体流量对流动阻力的影响.结果表明:催化剂厚度一定时,随着气体流量增大,多孔介质中的流动阻力也逐渐增大.经过与经典阻力计算公式对比,分析了偏差影响因素.最后,结合实验数据拟合出了适合管式反应器中流动阻力计算的半经验公式,能精确地预测颗粒填...     

层流条件下传质过程对舰船电场的影响

为了使直流电流元模型仿真结果更加接近实际情况,首先建立了螺旋桨圆盘等效模型;然后,结合电化学及流体力学相关理论,从流动腐蚀角度对舰船在海水中的腐蚀电流密度进行分析,并基于Navier-Stokes方程得出了圆盘表面氧气的传质过程控制下的极限腐蚀电流强度,建立了腐蚀电流元模型求解三层介质中的静电场;最后,进行了实验验证。结果表明:螺旋桨转速的增加会导致静电场幅值增加,且电场幅值的变化与测量点及船壳破损的位置有关,实际腐蚀过程中边缘效应的影响不可忽略。     

基础油种类对磁流变液流变性能及稳定性的影响

为考察基础油对磁流变液的影响,以羰基铁粉为悬浮介质,4种不同种类的基础油为分散相制备了磁流变液。采用MCR302流变仪进行旋转和振荡2种剪切模式测试,考察了基础油对磁流变液流变性能的影响。通过自然沉降法对不同种类基础油磁流变液的沉降稳定性进行评估。结果表明:磁流变液样品黏度及黏弹性与基础油的黏度和类型均有关,其中以聚α-烯烃为基础油的磁流变液具有较高的储能模量,在低剪切速率下表现出高零场黏度,而以乙基硅油为基础油的磁流变液储能模量较低且损耗因子随剪切频率波动较大,沉降稳定性较差。     

锥形液膜的Kelvin-Helmholtz扰动波

为进行锥形液膜雾化过程分析,研究锥形液膜的Kelvin-Helmholtz稳定性问题,应用小扰动假设,建立了锥形液膜数学模型、轴对称扰动运动的控制方程和边界条件,采用分离变量法求解线性偏微分扰动方程组,经过严格的数学推导,得到了锥形液膜内外表面扰动波增长速率特征方程.当液膜锥角为零时,与环形液膜扰动波特征方程一致;当液膜锥角和液膜内径为零时,与圆射流扰动波特征方程一致,表明导出的锥形液膜扰波动方程是合理的.     

考虑扩散效应圆形隧洞热弹性耦合动力响应研究

利用S-H热弹性扩散的基本理论,研究了无限弹性介质中圆形隧洞表面受随时间变化的热冲击的动力响应问题.采用直接求解方法以避免势函数的引入,利用Laplace变换技术,求解热、力、化学耦合控制方程,获得了弹性介质中温度梯度、位移、应力和化学势的积分形式解.最后,利用Laplace逆变换得到数值结果,分析了热、力、化学耦合条件下弹性介质中温度梯度、应力、位移和化学势响应的分布规律.     

气液同轴双离心式喷嘴喷雾特性

采用流体体积方法分析涡流器离心式喷嘴内部流动过程,采用单反相机和相位多普勒测速仪测量离心式喷嘴、气液同轴双离心式喷嘴的喷雾特性。发现涡流器离心式喷嘴内部流动的总压损失主要发生在涡流器槽道入口、收敛段和等直段。等直段使液膜厚度减小,喷雾锥角减小。离心式喷嘴喷雾粒径分布范围沿径向逐渐增加,轴向速度分布范围沿径向先减小后逐渐增加。气液同轴双离心式喷嘴喷雾特性受气液比影响很大,气液比小时旋流空气使喷雾锥角增加,粒径分布范围减小;气液比大时,气体膨胀压缩喷雾,使大液滴能够到达喷雾中心,喷雾外侧为二次雾化成的细小液滴。     

等离子体氮化SiO_2膜的电学性质

本文研究了等离子体氮化 SiO_2膜的电学性质,在低温下获得了性能优良的介质膜。     

横置圆筒内壁蒸汽冷凝换热分析

为了对横置圆筒内壁进行蒸汽冷凝换热分析,从Nusselt经典冷凝换热模型导出横置圆筒内壁的冷凝换热模型,考虑到不可凝气体对计算结果的影响,用GDLM模型对其进行了修正。然后,通过冷凝壁面热流量的计算,对比分析了文中计算模型与GDLM模型和Uchida模型优缺点,并计算了不同圆筒半径下冷凝液膜厚度和换热量随流动距离的变化。结果表明:冷凝液膜厚度只在上下两端变化剧烈,总的冷凝换热量随圆筒半径的增大而增大,但单位面积换热量随圆筒半径的增大而减小。     

饱和多孔热弹性体自由表面p波的反射

利用建立的饱和多孔介质中热弹性波的弥散方程,研究了平面p波在自由界面上的反射问题,获得反射系数的表达式。通过算例分析了饱和多孔弹性介质的热膨胀系数对p1波传播速度的影响,进而考虑界面透水与不透水两种工况,讨论了不同频率、入射角和表面排水条件对各反射波幅值的影响特性。结果表明:热物性参数对波的传播有一定的影响,频率、入射角和表面排水条件对两类压缩波、剪切波和热波的反射幅值的影响较大。     

液体火箭发动机碳/碳复合材料喷管烧蚀分析

对液体火箭发动机碳／碳复合材料喷管的烧蚀过程进行研究。理论模型包括固相和气相守恒方程。气相湍流反应边界层流动应用质量加权平均控制方程分析，喷管壁温分布由非稳态传热方程进行数值计算获得。分析了推进剂混合比、液膜冷却量、燃烧室压力、壁面材料的密度对烧蚀速率的影响。     

射流角度和壁面曲率对撞壁液膜的影响

射流角度和壁面曲率是空间液体火箭发动机液膜冷却设计的重要参数,通过实验研究了入射角和壁面曲率半径对射流撞壁液膜形态和液膜厚度的影响;实验中液膜厚度的测量采用探针法法测量。对射流撞壁的溅射现象进行的分析表明,射流由壁面附着状态转变为液滴飞溅状态的临界We数为214.1,射流撞壁后由附壁状态转变为溅射状态的临界入射角度为23.1°,根据液体火箭发动机冷却的需要可以选择合适的射流角度。     

黏弹性基底上阻尼碳纳米管的动力学特性

采用欧拉梁模型建立了有阻尼碳纳米管在黏弹性基底上的动力学问题分析模型。通过引入非局部理论、广义Maxwell黏弹性模型、速度相依的外阻尼模型及黏弹性基底模型推导出碳纳米管动力学分析的欧拉梁振动控制方程。在Kelvin-Voigt黏弹性模型基础上,分别给出无基底和全基底支撑时碳纳米管固有频率的一般解析表达式,并分析讨论全基底时的多种典型情况。然后利用传递函数方法求解出一般边界条件下振动控制方程的封闭解。以某单壁碳纳米管为例,得到不同边界条件下该单壁碳纳米管的前四阶固有频率,并分析了碳纳米管非局部参数、黏弹性参数、基底刚度及长度等影响因素对固有频率和阻尼因子的影响情况。结果表明,文中所建的动力学分析模型及计算方法对解决碳纳米管在黏弹性基底上的动力学问题准确有效。     

同轴环缝气流作用下锥形液膜线性稳定性分析

为了分析气液同轴离心式喷嘴的雾化机理，对同轴气体作用下的锥形液膜进行时间稳定性分析，推导同轴气体作用下锥形液膜的色散方程，建立离心式喷嘴出口参数预测模型，用于数值求解色散方程。结果表明：喷嘴出口液膜厚度随着喷注压降的增加而减小，喷雾锥角、液膜速度和轴向速度随着喷注压降的增加而增大。同轴气体作用下液膜由正弦模式的表面波主导，因为正弦模式的表面波增长率远大于曲张模式的表面波增长率。当环缝气体喷注速度较小时，增加气体速度会减小气液相对速度，从而减弱气液相互作用，使得液膜主导表面波增长率和频率减小、破碎时间和破碎长度增加。而当环缝气体速度超过一个临界值后，随着气体速度的增大，液膜主导表面波增长率和频率迅速增大，破碎时间和破碎长度迅速减小。     

Nuclear Fusion Power for Weapons Purposes

Fusion reactors have the potential to be used for military purposes. This article provides quantitative estimates about weapon-relevant materials produced in future commercial fusion reactors and discusses how suitable such materials are for use in nuclear weapons. Whether states will consider such use in the future will depend on specific regulatory, political, economic, and technical boundary conditions. Based on expert interviews and the political science literature, we identify three of these conditions that could determine whether fusion power will have a military dimension in the second half of this century: first, the technological trajectory of global energy policies; second, the management of a peaceful power transition between rising and declining powers; and third, the overall acceptance of the nuclear normative order. Finally, the article discusses a few regulatory options that could be implemented by the time fusion reactors reach technological maturity and become commercially available; such research on fusion reactor safeguards should start as early as possible and accompany the current research on experimental fusion reactors.     

CONTRIBUTORS

Russia holds the largest stocks of civilian highly enriched uranium (HEU) of any country, operating more than fifty research reactors, pulsed reactors, and critical assemblies using HEU, as well as nine HEU-fueled icebreakers. Russia's participation in international efforts to phase out civilian HEU is crucial if international HEU minimization efforts are to succeed. Individual Russian institutes and organizations participate in international programs to replace HEU with low-enriched uranium in Soviet-supplied research reactors, develop alternative fuels, and repatriate fresh and spent HEU fuel from third countries. However, an overarching national policy on HEU phase-out has yet to be adopted. There are many obstacles to obtaining such a commitment from Moscow. At the same time, the ongoing reform of the Russian nuclear industry and plans for expansion of domestic nuclear power generation and for increased nuclear exports create opportunities for securing such a commitment.     

粘弹性增量界面元法

采用界面元模型,推导了粘弹性增量界面元列式。算例表明,粘弹性增量界面元法能有效地用于粘弹性不连续介质问题的分析。     

高空滑移条件对化学非平衡粘性流动的影响

本文用数值方法计算了不同高度滑移边界条件对钝体绕流流场特性的影响。采用化学非平衡粘性激波层控制方程,边界条件含壁面滑移、激波滑移和无滑移条件。计算结果表明,考虑滑移条件后,激波层较厚,激波处的电子数密度为一有限值。文中给出了计算结果,并与其它文献的结果作了比较。     

Application of Two-dimensional Viscous CE/SE Method in Calculation of Two-phase Detonation

The method of two-dimensional viscous space-time conservation element and solution element (CE/SE) can be used to calculate the gas-liquid two-phase interior flow field in pulse detonation engine (PDE). In this paper, the evolution of the detonation wave and the distribution of its physical parameters were analyzed. The numerical results show that the change of axial velocity of gas is the same as that of detonation pressure. The larger the liquid droplet radius is, the longer the time to get stable detonation wave is. The calculated results coincide with the experimented results better.     

Simulation of the plasticizing behavior of composite modified double-base (CMDB) propellant in grooved calendar based on adaptive grid technology

The frequent occurrence of safety accidents during the calendering process is caused by the flammable and explosive properties of composite modified double-base (CMDB) propellant. Optimization of process parameters with the aid of fluid simulation technology could effectively ensure the safety of the calendering process. To improve the accuracy of the simulation results, material parameters and model structure were corrected based on actual conditions, and adaptive grid technology was applied in the local mesh refinement. In addition, the rheological behavior, motion trajectories and heat transfer mechanisms of CMDB propellant slurry were studied with different gaps, rotational rates and temperatures of two rollers. The results indicated that the refined mesh could significantly improve the contour clarity of boundaries and simulate the characteristics of CMDB propellant slurry reflux movement caused by the convergent flow near the outlet. Compared with the gap, the increased rotational rate of roller could promote the reflux movement and intensify the shear flow of slurry inside the flow region by viscous shear dragging. Meanwhile, under the synergistic effect of contact heat transfer as well as convective heat exchange, heat accumulated near the outlet and diffused along the reflux movement, which led to the countercurrent heat dissipation behavior of CMDB propellant slurry. The plasticizing mechanism of slurry and the safety of calendering under different conditions were explored, which provided theoretical guidance and reference data for the optimization of calendering process conditions. Based on the simulation results, the safety of the CMDB propellant calendering process could be significantly improved with a few tests conducted during a short research and development cycle.     

围绕J=1/2,2水平椭圆柱的有限长接触熔化

研究相变材料围绕J =1/2 ,2水平椭圆柱在有限长接触时的温差熔化过程 .应用边界层理论求得熔化边界层厚度 ,作用力与熔化速度关系式 .讨论了有关结果 ,并与长椭圆柱以及有限长圆柱的温差熔化的结果进行了比较 ,给出一些有益的结论