• 【Ansys Maxwell 学习笔记】Case02_Basic Eddy Current Analysis基本涡流分析


    Eddy Current Solver

    • Solves sinusoidally-varying magnetic fields in frequency domain. Solves only for liner materials in 3D. It is a full wave solver thus considers displacement currents. Induced fields such as skin and proximity effects are also considered.

    涡流求解器

    解决频域中正弦变化的磁场。仅解决3D中的衬里材料。它是一个全波求解器,因此考虑位移电流。还考虑了感应场,例如趋肤和邻近效应。

    【仿真介绍】

    • Introduction to the Eddy Current Solver

    – This workshop introduces the Eddy Current solver based on a simple example with a disk above a coil. This solver calculates the magnetic fields at a specified sinusoidal frequency. Both linear and nonlinear (for saturation effects) magnetic materials can be used. Also, eddy, skin and proximity effects are considered.

    本仿真通过一个简单的线圈上带有一个磁盘(disk)的简单模型,介绍涡流解算器的使用。该计算器可以计算在特定频率正弦信号下的磁场。线性和非线性(饱和效应)的磁性材料均可以使用。此外,还考虑涡流,趋肤效应和邻近效应。

    • 2D Geometry:

    Iron Disk above a Spiral Coil – A sinusoidal 500 Hz current will be assigned to an eight turn spiral coil underneath of a cast iron disk. The coil induces eddy currents and losses in plate. The 2D model will be setup as shown below using the 2D RZ axisymmetric solver.

    •2D几何:

    螺旋线圈上方的铁盘正弦500 Hz电流将分配给铸铁盘下面的八匝螺旋线圈。线圈在板中感应出涡流和损耗。如下所示,将使用2D RZ轴对称求解器建立2D模型。

       

    【建模分析】

    Step01 Create Design 创建设计文件

    – Select the menu item Project -> Insert Maxwell 2D Design

    Step02 Set Solution Type 设置解算器类型

    – Select the menu item Maxwell 2D -> Solution Type

    – Solution Type Window:

    1. Geometry Mode: Cylindrical about Z

    2. Choose Magnetic > Eddy Current

    3. Click the OK button

    如下图

    Step03 Set Default Units 设置默认单位

    – Select the menu item Modeler -> Units

    • Set units to cm (centimeters) and press OK

       

    Step04 Create Coil 创建线圈

    大小为一个2*2cm的矩形,对角线坐标为(17,0,-1)(19,0,1),颜色设置为黄色,材料设置为铜

    – Select the menu item Draw-> Rectangle

    1. Using the coordinate entry fields, enter the position of rectangle

    X: 17, Y: 0, Z: -1, Press the Enter key

    2. Using the coordinate entry fields, enter the opposite corner

    – dX: 2, dY: 0, dZ: 2, Press the Enter key

    – Change the name of resulting sheet to Coil and color to Yellow

    – Change the material of the object to Copper

    根据模型可知,需要8个相同的矩形模型,所以接下来将对该Coil进行复制操作,方法如下,每个矩形的中心距为3.1

    共需要8

    Duplicate Coil

    – Select the sheet Coil from history tree

    – Select the menu item Edit-> Duplicate -> Along Line 线性排列

    1. Using the coordinate entry fields, enter the first point of duplicate vector

    – X: 0, Y: 0, Z: 0, Press the Enter key

    2. Using the coordinate entry fields, enter the second point

    – dX: 3.1, dY: 0, dZ: 0, Press the Enter key

    • Total Number: 8

    • Press OK

    Step05 Create Plate 创建 plate

    Plate的大小为41*1,顶点坐标为(0,0,1.5)(41,0,2.5)材料为cast_iron铸铁,颜色为橘黄色

    – Select the menu item Draw -> Rectangle

    1. Using the coordinate entry fields, enter the position of rectangle

    – X: 0, Y: 0, Z: 1.5, Press the Enter key

    2. Using the coordinate entry fields, enter the opposite corner

    – dX: 41, dY: 0, dZ: 1, Press the Enter key

    – Change the name of resulting sheet to Plate and color to Orange

    – Change the material of the object to cast_iron

    Step06 Create Solution Region 创建解算区域

    – Select the menu item Draw-> Rectangle

    1. Using the coordinate entry fields, enter the position of rectangle

    X: 0, Y: 0, Z: -100, Press the Enter key

    2. Using the coordinate entry fields, enter the opposite corner

    dX: 120, dY: 0, dZ: 200, Press the Enter key

    – Change the name of resulting sheet to Region

    Step07 Assign Excitations 创建激励

    • Assign Excitation

    – Press Ctrl and select all Coils from history tree

    – Select the menu item Maxwell 2D -> Excitations -> Assign -> Current

    – In Current Excitation window,

    • Base Name: Current

    • Value: 125 A

    • Type: Solid

    • Ref. Direction: Positive

    • Press OK

    注意:选择"Solid "指定将考虑线圈中的涡流效应。另一方面,如果选择"Stranded ",则仅会计算出直流电阻,而不会考虑线圈中的交流电影响。当趋肤深度比绞合导体的厚度大得多时,例如使用利兹线时,绞合是合适的。注意,在两种情况下,都将计算板中的涡流效应。

    Step08 Assign Boundary and Parameters 创建边界和参数

       

    • Assign Boundary

    – Select the object Region from history tree

    – Select the menu item Edit -> Select ->All Object Edges

    – Select the menu item Maxwell 2D -> Boundaries -> Assign -> Balloon

    – In Balloon Boundary window,

    • Press OK

    注意:在对称轴上,将自动跳过"气球边界"分配,这也可以通过选择不在对称轴上的区域的边缘来实现。

       

    • Assign Matrix Parameters

    – Select the menu item Maxwell 2D -> Parameters -> Assign -> Matrix

    – In Matrix window,

    • For all current Sources

    – Include: þ Checked

    • Press OK

       

    Step09 Analyze 分析

    • Create an analysis setup:

    – Select the menu item Maxwell 2D -> Analysis Setup -> Add Solution Setup

    – Solution Setup Window:

    1. General Tab

    – Maximum Number of Passes: 15

    2. Solver Tab

    – Adaptive Frequency: 500 Hz

    3. Click the OK button

    •Start the solution process:

    1. Select the menu item Maxwell 2D -> Analyze All

       

    Step10 Solution Data 结果数据

    • View Solution Information

    – Select the menu item Maxwell 2D -> Results -> Solution Data

    • To view Convergence

    – Select the Convergence tab

    • To View Impedance matrix

    – Select Matrix tab

    – By default, the results are displayed as [R,Z] but can be also shown as [R,L] or as coupling coefficients.

    Convergence:收敛性

    阻抗矩阵

    RL矩阵

    Flux Linkage 磁链

    Inductive Coupling Coefficient:电感耦合系数

       

    Step11 Compute Power Loss 计算功率损耗

    • Compute Total Power Loss in the Plate

    – Select the menu item Maxwell 2D > Fields > Calculator

    – In Fields Calculator window,

    • Select Input > Quantity > OhmicLoss

    • Select Input > Geometry

    – Select Volume

    – Select Plate

    – Press OK

    • Select Scalar > Integral > RZ

    • Select Output > Eval

       

    所以在Plate上的损耗大约是260W

       

    Step12 Create Field Plots 创建场图

    Plot Mesh

    – Select the menu item Edit > Select All

    – Select the menu item Maxwell 2D > Fields > Plot Mesh

    – In Create Mesh Plot window, press Done

    Plot Flux Lines

    – Select the menu item Edit > Select All

    – Select the menu item Maxwell 2D > Fields > Fields > A > Flux _Lines

    – In Create Field Plot window, Press Done

       

    注意,由于磁力线是磁性的,因此磁力线被吸引到平板上。而且,由于板上有涡电流流动,因此在板上存在集肤效应。由图可以看出,极板上的磁力线分布不均匀,存在集肤效应

    Step13 Create Field Plots (Contd)

    Plot Current Density Scalar on Plate

    – Select the sheet Plate from history tree

    – Select the menu item Maxwell 2D Fields > Fields > J > JAtPhase

    – In Create Field Plot window, Press Done

    Plot Current Density Scalar on Coils

    – Press Ctrl and select all coils from history tree

    – Select the menu item Maxwell 2D > Fields > Fields > J > JAtPhase

    – In Create Field Plot window, Press Done

    Step14 Plot Ohmic Loss Distribution

    Plot Ohmic Losses

    – Press Ctrl and select all coils and Plate

    – Select the menu item Maxwell 2D > Fields > Fields > Other > Ohmic_Loss

    – In Create Field Plot window, Press Done

    Modify Plot Attributes

    – Double click on the Legend to modify plot

    – In the window,

    Scale tab

    – Select Log

    • Press Apply and Close

       

    Step15 Plot Current Density Vectors

    Plot Current Density vectors

    – Select the sheet Plate from history tree

    – Select the menu item Maxwell 2D >Fields >Fields > J > J_Vector

    – In Create Field Plot window, Press Done

    – Double click on the Legend to modify plot

    – In the window,

    Plots tab

    – Plot: Change to J_Vector1

    – Change Vector plot spacing

    • Min: 0.5

    • Max: 0.5

    • Press Apply and Close

    Animate Plot

    – Select the Vector plot from Project Manager tree, right click and select Animate

    – In Setup Animation window,

    • Press OK with default settings

    – A window will appear to start, stop, pause or save the animation

    Step16 将解算频率设置为1e-6Hz仿真DC情况下的情况

    磁力线:

    由图可以看出,在DC情况下,导体中的磁力线分布均匀,基本不存在集肤效应。

       

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  • 原文地址:https://www.cnblogs.com/Mr-Wangblogs/p/13151364.html
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