垂直上升通道内气泡–液态金属MHD流动与传热的数值研究

在聚变堆的冷却系统中,由于强磁场的影响,液态金属流动受到抑制,通过掺入气泡到液态金属中可减小磁流体力学(Magnetohydrodynamic,MHD)效应,提升传热速率。该文基于VOF多相流模型,在不同的磁场强度(0~1.3 T)和不同的气泡雷诺数(1.3×10^(4)~6.76×10^(4))范围内,对横向磁场作用下垂直上升通道中气泡-液态金属两相流动传热特性进行数值研究。结果表明,无磁场时气体呈柱状流,而在磁场作用下,由于MHD箍缩效应的影响,气柱破裂、分离,形成了气泡流;随着磁场增大,其分离点由入口逐渐向上移动,且气泡运动速度随之增加。与液态金属单相流相比,气泡-液态金属两相流动的平均换热系数随磁场强度和气泡雷诺数增加均呈下降趋势,但因两相流动显著减小由MHD效应引起的压降,从而提升通道内综合换热因子,且在磁场较小时,提升效果更好。

Utilization of Logistical Regression to the Modified Sine-Gordon Model in the MST Experiment

In this paper, a logistical regression statistical analysis (LR) is presented for a set of variables used in experimental measurements in reversed field pinch (RFP) machines, commonly known as “slinky mode” (SM), observed to travel around the torus in Madison Symmetric Torus (MST). The LR analysis is used to utilize the modified Sine-Gordon dynamic equation model to predict with high confidence whether the slinky mode will lock or not lock when compared to the experimentally measured motion of the slinky mode. It is observed that under certain conditions, the slinky mode “locks” at or near the intersection of poloidal and/or toroidal gaps in MST. However, locked mode cease to travel around the torus;while unlocked mode keeps traveling without a change in the energy, making it hard to determine an exact set of conditions to predict locking/unlocking behaviour. The significant key model parameters determined by LR analysis are shown to improve the Sine-Gordon model’s ability to determine the locking/unlocking of magnetohydrodyamic (MHD) modes. The LR analysis of measured variables provides high confidence in anticipating locking versus unlocking of slinky mode proven by relational comparisons between simulations and the experimentally measured motion of the slinky mode in MST.

Hall Current Effects on Unsteady MHD Flow in a Rotating Parallel Plate Channel Bound-ed by Porous Bed on the Lower Half—Darcy Lapwood Model

We discussed the unsteady flow of an incompressible viscous fluid in a rotating parallel plate channel bounded on one side by a porous bed under the influence of a uniform transverse magnetic field taking hall current into account. The perturbations are created by a constant pressure gradient along the plates in addition to the non-torsional oscillations of the upper plate. The flow in the clean fluid region is governed by Navier-Stoke’s equations while in the porous bed the equations are based on Darcy-Lapwood model. The exact solutions of velocity in the clean fluid and the porous medium consist of steady state and transient state. The time required for the transient state to decay is evaluated in detail and ultimate quasi-steady state solution has been derived analytically and also its behaviour is computationally discussed with reference to different flow parameters. The shear stresses on the boundaries and the mass flux are also obtained analytically and their behaviour is computationally discussed.

Effect of contact materials on the transient characteristics of vacuum arc plasma and anode erosion

In this study, the mechanisms of the anode phenomena and anode erosion with various contact materials were investigated. Arc parameters were calculated, and the anode temperature was predicted with a transient self-consistent model. The simulation results predicted a constricted arc column and obvious anode phenomena in Cu–Cr alloy contacts than in W–Cu alloy contacts.This observation could be the reason for the concentrated anode erosion in Cu–Cr alloys. For the contacts made by pure tungsten(W) and W–Cu alloy, the anode temperature increased rapidly because of the low specific heat of W. However, the maximum energy flux from the arc column to the anode surface was lower than in other cases. The simulation results were compared with experimental results.

基于MHD的小间隙真空电弧仿真研究

真空开关电弧电流过零前的电弧等离子体状态对真空开关能否顺利开断具有十分重要的影响。本文在建立小间隙真空电弧磁流体动力学(MHD)模型的基础上,采用通用计算流体力学仿真软件对电弧电流过零前0.5 ms时的电弧等离子体的特性进行数值仿真研究。计算得到了真空电弧等离子体压力、等离子体密度、离子纵向速度、阳极表面纵向电流密度和电弧电压等的空间分布。仿真结果表明:从阴极到阳极,真空电弧等离子体压力和密度逐渐增大,而等离子体速度逐渐减小;阳极表面电流密度存在较大径向梯度,最大值低于形成阳极斑点的极限收缩电流,阳极仍不活跃。仿真得到的等离子体密度分布与高速摄像机拍摄得到的CMOS图像光强基本吻合,计算得到的电弧电压与测得的电弧电压是一致的,从而验证了本模型的可行性。

喷口电弧二维磁流体动力学(MHD)数学模型

为了揭示电弧在开断过程中的复杂物理现象，建立的喷口电弧二维磁流体动力学数学模型，强调了电弧、气流、电磁场三者的相互作用，消除了因忽略Ｌｏｒｅｎｔｚ力和电流密度径向分量引起的物理意义失真．应用有限元法对模型中Ｎ－Ｓ（ＮａｖｉｅｒＳｔｏｋｅｓ）方程和二维电磁场方程进行数值求解．数值计算结果反映了Ｌｏｒｅｎｔｚ力以及电流密度径向分量对电弧特性的影响，同时揭示了电弧热边界区的存在．

火星沉降H-ENA的分布与特性

能量中性原子(Energetic Neutral Atom,ENA)是由能量离子与中性背景成分电荷交换产生.火星的外逸层扩展范围远高于弓激波,上游太阳风质子与其相互作用并转化为太阳风氢ENA(Hydrogen-ENA,H-ENA),新生的H-ENA可直接进入低层大气,成为新的物质与能量输运通道.本文基于单流体多成分MHD模型与中性外逸层模型,计算了火星200 km等高面沉降H-ENA通量的空间分布,统计了多种太阳风条件下沉降H-ENA的粒子与能量沉降率,分析影响因素.结果表明,在一定模拟条件下,产生于弓激波上游的太阳风H-ENA,呈cosZ分布(Z为天顶角),受磁异常影响较小,是沉降H-ENA的主要成分,占ENA总沉降量的59%,占能量沉降的81%;产生于磁鞘的磁鞘H-ENA受磁异常阻碍影响较大,在最强磁异常上方其沉降通量显著下降;沉降H-ENA与上游太阳风的通量呈正比例关系;2.1%~3.5%上游太阳风质子转化为太阳风H-ENA.

星载MHD传感器灵敏度特性误差分析与模型验证

磁流体动力学(magneto-hydro-dynamic,简称MHD)传感器是测量航天器平台宽频微角颤振的关键器件之一。鉴于MHD传感器的误差与噪声特性会影响星载惯性导航系统的精度与分辨率,对所设计的MHD传感器进行误差分析与试验验证。采用样机数据分析与组件物理建模相结合的方法,分析与验证MHD传感器灵敏度特性与误差模型。结果表明:传感器的误差主要受到重力方向与温度条件的影响,并且该项误差对无温控MHD传感器的误差起决定作用;当温度变化较小时,变压器磁芯磁导率的工艺误差占总误差的一半;差分放大器的噪声对传感器噪声具有显著影响。

MHD燃烧室煤粉喷嘴的冷态试验研究

对浓相输送条件下ＭＨＤ燃烧室的钝体型煤粉喷嘴进行了冷态试验研究，用极板电容棵针测量了钝体不同张角、不同轴向位置、不同宽径比下ＭＨＤ燃烧室内煤粉颗粒相对浓度分布，分析了上述因素对浓度场的影响。

三维不可压双流体MHD方程Cauchy问题小初值解的整体存在性

研究三维不可压双流体MHD方程Cauchy问题,给出该问题在小初值条件下解的整体存在性结果。

竖直平板嵌入非Darcy多孔介质时,数值研究流过平板的不稳定MHD自然对流中的Dufour和Soret效应

就竖直平板嵌入非Darcy多孔介质中,导电流体流过平板时作不稳定的二维磁流体(MHD)双扩散对流,数值研究了Dufour和Soret效应对流动的影响.用Crank-Nicolson型的隐式有限差分法,按三对角矩阵处理,求解无量纲的非线性控制方程.详细地研究了问题中出现的各种参数对不稳定无量纲的速度、温度和浓度曲线的影响.进一步地,给出并分析了表面摩擦因数、Nus-selt数和Sherwood数随时间的变化.研究结果表明,不稳定速度、温度和浓度分布曲线,受Dufour和Soret的影响十分显著.随着Dufour数的增加或者Soret数的减小,表面摩擦因数和Sherwood数都在减小,而Nusselt数在增加.研究发现,当磁场参数增加时,边界层中的速度和温度在减小.

MHD治疗的CKD-MBD患者行5E康复模式的延续性护理对iPTH的研究

目的探究维持性血液透析(MHD)治疗的慢性肾脏病矿物质与骨异常(CKD-MBD)患者行5E康复模式的延续性护理对甲状旁腺激素(iPTH)的作用。方法随机选择2018年7月—2020年6月开展MHD治疗的80例CKD-MBD患者为研究对象,按照选取顺序编号,利用抽签法平分为对照组、研究组,每组40例。对照组采取常规护理措施,研究组在前者基础上开展5E康复模式的延续性护理,比较病情恢复相关指标和自我管理能力。结果研究组护理后校正钙达标率、血磷达标率、iPTH达标率分别为72.50%、70.00%、67.50%,高于对照组37.50%、35.00%、32.50%,差异有统计学意义(χ^(2)=9.899、9.825、9.800,P<0.05);研究组护理后iPTH为(218.67±23.97)pg/mL,低于对照组(342.63±24.12)pg/mL,差异有统计学意义(t=23.055,P<0.05);研究组自我护理能力评分为(62.67±4.97)分,高于对照组(55.63±4.12)分,差异有统计学意义(t=6.897,P<0.05)。结论针对MHD治疗的CKD-MBD患者,进行5E康复模式的延续性护理利于其病情恢复。

旋弧式SF_(6)/N_(2)混合气体触发间隙开关电弧仿真与实验研究

江苏—白鹤滩±800 kV特高压混合直流输电工程中,采用触发间隙开关作为400 kV母线消能装置开关。开关主电极采用了带有螺旋槽结构的平板型横磁旋弧电极。文中使用了三维MHD电弧模型对触发间隙开关主电极的旋弧特性进行了研究,仿真获得了不同电极结构对电极控弧性能的影响。仿真结果显示电弧在横向磁场的作用下,整体沿电极边界进行高速旋转,降低了电弧对主电极的烧蚀程度。电弧转速随着电极旋弧瓣数的增加而增加,随着极板直径的增加而减小。通过与通流实验中拍摄的主电极旋弧过程进行对比,综合仿真和实验的结果,确定了工程应用的电极结构具体参数。

Analysis on MHD Stability of Free Surface Jet flow in a Gradient Magnetic Fields

The simplified modeling for analysis on MHD stability of free surface jet flow in a gradient magnetic fields is based on the theoretical and experimental results on channel liquid metal MHD flow, especially, the results of MHD flow velocity distribution in cross-section of channels (rectangular duct and circular pipe), and the expected results from the modeling are well agreed with the recent experimental data obtained. It is the first modeling which can efficiently explain the experimental results of liquid-metal free surface jet flow.

Simulation of Fault Arc Based on Different Radiation Models in a Closed Tank

This paper focuses on the simulation of a fault arc in a closed tank based on the magneto-hydrodynamic （MHD） method, in which a comparative study of three radiation models, including net emission coefficients （NEC）, semi-empirical model based on NEC as well as the P1 model, is developed. The pressure rise calculated by the three radiation models are compared to the measured results. Particularly when the senti-empirical model is used, the effect of different boundary temperatures of the re-absorption layer in the semi-empirical model on pressure rise is concentrated on. The results show that the re-absorption effect in the low-temperature region affects radiation transfer of fault arcs evidently, and thus the internal pressure rise. Compared with the NEC model, P1 and the semi-empirical model with 0.7 〈 α 〈 0.83 are more suitable to calculate the pressure rise of the fault arc, where is an adjusted parameter involving the boundary temperature of the re-absorption region in the semi-empirical model.

Numerical investigation of Dufour and Soret effects on unsteadyMHD natural convection flow past vertical plate embedded innon-Darcy porous medium

The Dufour and Soret effects on the unsteady twodimensional magnetonyaro dynamics （MHD） doublediffusive free convective flow of an electrically conducting fluid past a vertical plate embedded in a nonDarcy porous medium are investigated numeri cally. The governing nonlinear dimensionless equations are solved by an implicit finite difference scheme of the CrankNicolson type with a tridiagonal matrix manipulation. The effects of various parameters entering into the problem on the unsteady dimension less velocity, temperature, and concentration profiles are studied in detail. Furthermore, the time variation of the skin friction coefficient, the Nusselt number, and the Sherwood number is presented and analyzed. The results show that the unsteady velocity, tem perature, and concentration profiles are substantially influenced by the Dufour and Soret effects. When the Dufour number increases or the Soret number decreases, both the skin friction and the Sherwood number decrease, while the Nusselt number increases. It is found that, when the magnetic parameter increases, the velocity and the temperature decrease in the boundary layer.

Research on 2D Model of Capillary Discharge Plasma

The physical process of capillary discharge in a PE tube utilized in electro-thermal-chemical(ETC)guns was investigated.ETC guns can enhance the ignition and combustion of propellant in order to reduce the ignition delay and increase muzzle velocity of the projectile.A key component in ETC gun is the capillary plasma source.In this paper,a 2D steady state model of discharge was built by using magnetic hydrodynamics method.It took the plasma energy balance,material ablation,mass and momentum conservations in a quasi-neutral plasma region into account.Also,the effect of different compositions and PE concentration distribution were considered.In order to evaluate the validation of this model,the simulation results are compared with former works.

Magneto-hydrodynamic simulation study of direct current multi-contact circuit breaker for equalizing breaking arc

This work is based on a direct current(DC)natural current commutation topology,which uses load-carrying branch contacts carrying rated current and multiple sets of series arcing branch contacts in parallel to achieve circuit breaking.The proposed topology can meet the new requirements of higher voltage DC switches in aviation,aerospace,energy and other fields.First,a magneto-hydrodynamic arc model is built using COMSOL Multiphysics,and the different arc breaking characteristics of the arcing branch contacts in different gas environments are simulated.Then,a voltage uniformity coefficient is used to measure the voltage sharing effect in the process of dynamic interruption.In order to solve the dispersion of arcing contact action,a structural control method is adopted to improve the voltage uniformity coefficient.The uniform voltage distribution can improve the breaking capacity and electrical life of the series connection structure.

交流继电器电弧动态特性仿真分析

继电器触头分断过程中产生的电弧是造成触头电烧蚀进而导致继电器失效的主要原因之一。为了方便分析交流电弧物理特性,通过对Fluent进行二次开发,基于流体动力学方程、电磁场方程建立三维交流电弧的磁流体动力学(MHD)模型。结合触头的实际运动过程,计算分析交流继电器分断电弧的动态过程。通过与实测数据进行对比,验证了电弧仿真的准确性,对进一步了解交流电弧特性及优化产品设计有一定的指导意义。

C_(4)F_(7)N气体电弧的辐射输运特性研究

辐射作为电弧能量输运的主要方式,在灭弧过程中起着关键作用。该文以环保型气体C_(4)F_(7)N及其与CO_(2)和N_(2)的混合气体为对象,建立了耦合净辐射模型的气体电弧二维磁流体动力学模型,分析了触头运动过程中C_(4)F_(7)N电弧的辐射输运特性,探究了电流大小和混合气体配比对电弧形态、温度及辐射能量的影响。进一步地,搭建电弧光学诊断实验平台,分别利用高速相机和光谱仪捕获电弧形态并采集电弧光谱信息,验证了仿真模型的有效性。研究发现,受电弧辐射能量沿轴线分布影响,C_(4)F_(7)N气体电弧形态呈葫芦状。随着电流增大,电弧辐射能量增强,葫芦状形态逐渐明显。随着C_(4)F_(7)N气体含量增加,电弧在径向洛伦兹力的作用下逐渐收缩。