用于SiC超光滑表面加工的大气等离子体抛光系统设计

设计了一套基于射频电容耦合放电原理的大气等离子体抛光原型装置,电容耦合等离子体炬首次被应用到了抛光系统中。针对SiC反射镜的加工实验结果表明,系统工作正常,并可以实现亚纳米级的表面粗糙度。     

等离子体单极天线辐射特性和隐身性能研究

在等离子体单极天线工作原理的基础上,详细研究了等离子体表面波的色散关系,推导了等离子体的浓度分布和等离子体气柱长度与激励源的关系。并分析了离子体参数对等离子体天线谐振频率、方向图的影响,计算并比较了等离子体天线和普通天线的雷达散射截面。结果表明了等离子体天线具有优良性能和很好的隐身效果。     

含水乙醇等离子体重整制氢中乙醇裂解的关键路径模拟

建立了数学模型,把含水乙醇等离子体重整制氢体系中的主要化学反应,归结为各物种浓度的常微分方程组的初值问题来求解,计算方法选用Ode113法,在假定的几种不同乙醇裂解关键路径下分别得到了几种主要产物随停留时间的变化规律,并将模拟结果与前期实验结果进行了对比.结果表明:乙醇等离子体重整制氩中乙醇分子4种化学键的断裂具有同等机会.     

等离子体隐身技术探讨

阐述了等离子体隐身的概念和原理,进而分析了等离子体隐身的关键技术和发展状况。     

基于等离子体激励的圆柱绕流控制实验研究

为验证低雷诺数条件下,采用大气压等离子体流动控制技术进行圆柱绕流控制的有效性,设计了圆柱绕流实验系统,并开展了圆柱绕流实验研究.实验研究表明,在雷诺数为1.35×104和1.90×104的条件下,等离子体激励器产生的流动扰动,能够有效控制圆柱体绕流的流动分离,并显著改善分离流场,增涡、减涡效果明显.实验结果表明,大气压等离子体流动控制技术是钝体绕流流动特性控制的一种有效手段.     

微等离子体转化二氧化碳发射光谱诊断

火星大气层的主要成分为二氧化碳,如果能够利用低温等离子体方法高效分解二氧化碳,使其转化为氧气和一氧化碳加以利用,可以大幅降低航天员生命保障相关载荷长途运输的成本,进一步提高生命保障能力.低温等离子体放电过程中会产生大量活性组分,可以在数百度温度下实现二氧化碳的高效解离,是具有很大潜力的二氧化碳解离与转化方式.设计了一种...     

直流电弧等离子体炬数值模拟与诊断

直流电弧等离子体炬内部物理过程复杂且具动态性,较难对其进行准确描述与深入研究,且其工作温度较高,其状态参数难以使用常规方式测量。针对直流电弧等离子体炬,建立流动、传热和电磁相互耦合的数值模型,基于Fluent软件对直流电弧等离子体炬进行三维数值模拟和特性分析,设计并搭建了一套热焓探针实验系统,完成对直流电弧等离子体炬射流参数的测量分析。结果表明:建立的数值模型模拟结果与实验测量结果吻合较好,误差在10%以内;炬内温度与速度最大值与工作气流量呈正相关,均出现在靠近阴极区域,且沿轴线逐渐降低;等离子体炬内高温区与高电流密度区重合。     

Four-peak longitudinal distribution of the equatorial plasma bubbles observed in the topside ionosphere: Possible troposphere tide influence

In this paper we consider an idea of the troposphere tide influence on the character of the longitudinal variations in the distribution of the equatorial plasma bubbles (EPBs) observed in the topside ionosphere. For this purpose, the obtained EPB longitudinal patterns were compared with the thermosphere and ionosphere characteristics having the prominent “wave-like” longitudinal structures with wave number 4, which are uniquely associated with the influence of the troposphere DE3 tides. The characteristics of the equatorial mass density anomaly (EMA), equatorial ionization anomaly (EIA), zonal wind and pre-reversal E?×?B drift enhancement (PRE) were used for comparison. The equinox seasons during high solar activity were under consideration. It was obtained that the longitudinal patterns of the EMA and zonal wind show the surprising similarity with the EPB distributions (R???0.8, R???0.72). On the other hand, the resemblance with the ionosphere characteristics (EIA, PRE) is rather faint (R???0.37, R???0.12). It was shown that the thermosphere zonal winds are the most possible transfer mediator of the troposphere DE3 tide influence. The most successful moment for the transfer of the troposphere DE3 tide energy takes place in the beginning of the EPB production, namely, during the seed perturbation development.     

Local stability analysis of interface region of astrophysical viscous shear flows with a gradual velocity gradient

In this paper, we extend the stability analysis of cold sharp shear flows to warm astrophysical cases with, inevitable, gradual velocity gradient in the interface region in the presence of viscosity effect. Using linear perturbation theory as well as the local approximation method, the instability growth rate of the excited electromagnetic modes has been investigated for the relativistic and non-relativistic cases of solar wind interacting with interstellar plasma medium. Results show that astrophysical shear systems with a small velocity gradient in the transition region are more stable rather than larger ones. Moreover, dependent on the viscosity coefficient value, the viscosity effects could have a positive role on the instability growth rate of the system in some range of initial bulk velocity, while it plays a destructive role in other velocity ranges.     

A Three-Dimensional Simulation of Collisional-Interchange-Instability in the Equatorial-Low-Latitude Ionosphere

We present a three-dimensional simulation of collisional-interchange-instability in the equatorial-low-latitude F region of ionosphere. The instability is responsible for the generation of large plasma density depletion or bubble. General 3D potential and continuity equations are derived to simulate the phenomena. To understand the linear aspect of the instability, the general 3D linear growth rate is derived using 3D potential equation. The linear growth characteristics are compared with earlier field-aligned-integrated growth analyses. The numerical simulation of bubble in the 3D spherical polar geometry is finally presented. Distinct evolution characteristics of bubble in 3D and 2D simulation are further discussed.