Ansys计算温度场操作流程.docx

1、Instruction of Ansys temperature field calculation Question 1: Consider an infinite (in one direction) plate with initial temperature T0. One end of the plate is exposed to the environment of which the temperature is Te (III type boundary condition). Analyze the temperature distribution in the p

2、late during the period of 2023s. 问题1：考虑一种方向无限长旳平板，初始温度为T0，一段暴露在温度为Te旳环境中，分析其在2023s内温度分布状况。 Basic parameters基本物性参数 Geometry几何：a=1 m, b=0.1 m Material材料：λ=54 W/m·oC, ρ=7800 kg/m3, cp=465 J/kg·oC Loads载荷：T0=0 oC, Te=1000 oC, h=50 W/m2·oC Jobname and directory settings设置文献名、存储途径 Menu | File |

3、 Change Jobname Menu | File | Change Directory Preprocessing前处理 (1) Define Element Type定义单元类型 Preprocessor | Element Type | Add/Edit/Delete Add: Thermal Mass | Solid | Quad 4node 55 (2) Set Material Properties设置材料属性 Preprocessor | Material Props | Material Models Thermal: Conductivity: I

4、sotropic KXX=54 Thermal: Density=7800 Thermal: Specific Heat=465 Modeling建模 (1) Create Node 1建立节点1 Preprocessor | Modeling | Create | Nodes | In Active CS No.: 1, (x, y, z) = (0,0,0) (2) Create Node 12建立节点12 Preprocessor | Modeling | Create | Nodes | In Active CS No.: 2, (x, y, z) = (0

5、1,0) (3) Fill Between Node 1 and 12在节点1，12间填充其他节点 Preprocessor | Modeling | Create | Nodes | Fill Between Nds Number of nodes to fill: 10 Spacing ratio: 1(均匀网格) (4) Create Node 13~24 by copying复制生成节点13～24 Preprocessor | Modeling | Copy | Nodes | Copy Pick All选择所有节点 Total number of copie

6、s: 2复制2份（包括原先旳1份） X-offset: 0.1设置X方向偏移量 (5) Create Element 1生成单元1 Preprocessor | Modeling | Create | Elements | Auto Numbered | Thru Nodes Select 1, 13, 14, 2(with mouse) (6) Copy Element 2~10 by copying复制生成其他单元 Preprocessor | Modeling | Copy | Elements | Auto Numbered Pick All选择所有单元 Tot

7、al number of copies: 11复制11份（包括原先旳1份） Node number increment: 1设置节点增量 Applying Loads加载（设置边界条件和初始条件） (1) Apply convention loads on Node 12 and 24在节点12，24上加对流载荷 Preprocessor | Loads | Define Loads | Apply | Thermal | Convection | On Nodes Pick 12, 24 VALI Film coefficient: 50换热系数 VAL2L Bulk te

8、mperature: 1000环境温度 (2) Set initial temperature(uniform temperature)设置初始条件（均匀温度） Solution | Define Loads | Settings | Uniform Temp Uniform Temperature: 0 Solution求解 (1) Set Analysis Type as Transient设置分析类型为瞬态分析 Solution | Analysis Type | New Analysis Transient (2) Set solution controls

9、设置分析控制参数 Solution | Analysis Type | Sol’n Controls ”Transient” Label: Stepped Loading ”Basic” Label: Time at end of loadstep: 10000; Automatic time stepping: on; Time increment: 10; Frequency: Write every substep (3) Solve求解 Solution | Solve | Current LS Viewing Results查看成果 (1) TimeHist P

10、ostpro时间历程后处理器 Add data添加数据: TimeHist Postpro | Add data: Nodal Solution: DOF Solution: Nodal Temperature: Variable Name: T1; Node 1 Variable Name: T5; Node 5 Variable Name: T9; Node 9 Variable Name: T11; Node 11 (2) List/Graph列表/作图 Select the variables选择变量: List data/ Graph data (3)

11、 Save image保留图片 Menu | PlotCtrls | Capture Image: File | Save as (4) General Postpro通用后处理器 Select the data of certain time选择某一时刻旳数据: General Postpro | Read Results | By pick Plot the contour map of temperature distribution绘制该时刻温度分布等值线图: General Postpro | Plot Results | Contour Plot | Nodal S

12、olu | Nodal Solution: DOF Solution: Temperature (5) Save image保留图片 Menu | PlotCtrls | Capture Image: File | Save as (6) Animate生成动画 Menu | PlotCtrls | Animate | Over Time Number of animation frames: 100 Question 2: Consider a solid cylinder with initial temperature T0. The top surface of

13、 the cylinder is exposed to the environment of which the temperature is Te (III type boundary condition) and the other surfaces are heat insulation (II type boundary condition). Analyze the temperature distribution in the cylinder during the period of 1000s. 问题2：考虑一种初始温度为T0旳圆柱体，一段暴露在温度为Te旳环境中，其他界面

14、视为绝热，分析其在1000s内温度分布状况。 Basic parameters基本物性参数 Geometry几何：r=0.025 m, h=0.05 m Material材料：λ=25 W/m·oC, ρ=7800 kg/m3, cp=500 J/kg·oC Loads载荷：T0=25 oC, Te=100 oC, h=100 W/m2·oC Jobname and directory settings设置文献名、存储途径 Menu | File | Change Jobname Menu | File | Change Directory Preprocessin

15、g前处理 (1) Define Element Type定义单元类型 Preprocessor | Element Type | Add/Edit/Delete Thermal Mass: Solid : Brick 8node 70 (2) Set Material Properties设置材料属性 Preprocessor | Material Props | Material Models Thermal: Conductivity: Isotropic KXX=25 Thermal: Density=7800 Thermal: Specific Heat=500

16、 Modeling建模 (1) Create the cylinder model建立圆柱体模型 Preprocessor | Modeling | Create | Volumes | Cylinder | Solid Cylinder WP X: 0 WP Y: 0 Radius: 0.025 Depth: 0.05 (2) Adjust the view调整视图 Right Toolbar | Isometric View (3) Mesh划分网格 Preprocessor | Meshing | MeshTool SmartSize(optional):

17、 Mesh: select the cylinder选择圆柱体 Applying Loads加载 (1) Apply convention loads on the top在上表面加对流载荷 Preprocessor | Loads | Define Loads | Apply | Thermal | Convection | On Areas Pick the top surface by mouse选择上表面(用鼠标) VALI Film coefficient: 100换热系数 VAL2L Bulk temperature: 100环境温度 (2) Set init

18、ial temperature(uniform temperature)设置初始条件（均匀温度） Solution | Define Loads | Settings | Uniform Temp Uniform Temperature: 25 Solution求解 (1) Set Analysis Type as Transient设置分析类型为瞬态分析 Solution | Analysis Type | New Analysis Transient (2) Set solution controls设置分析控制参数 Solution | Analysis Type

19、 | Sol’n Controls ”Transient” Label: Stepped Loading ”Basic”Label: Time at end of loadstep: 1000; Automatic time stepping: on; Time increment: 10; Frequency: Write every substep (3) Solve求解 Solution | Solve | Current LS Viewing Results查看成果 (1) General Postpro通用后处理器 Select the data of cert

20、ain time选择某一时刻旳数据: General Postpro | Read Results | By pick Plot the contour map of temperature distribution绘制该时刻温度分布等值线图: General Postpro | Plot Results | Contour Plot | Nodal Solu | Nodal Solution: DOF Solution: Temperature (2) Save image保留图片 Menu | PlotCtrls | Capture Image: File | Save as (3) Animate生成动画 Menu | PlotCtrls | Animate | Over Time Number of animation frames: 100