首页/文章/ 详情

PyFluent文档|05 网格生成-传统流程

精品
作者优秀平台推荐
详细信息
文章亮点
作者优秀
优秀教师/意见领袖/博士学历/特邀专家
平台推荐
内容稀缺
5月前浏览6489

Fluent的网格生成引导工作流程旨在简化从CAD几何到体网格生成的过程。用户可以使用PyFluent访问引导的工作流程。

工作流程被划分为新的网格生成工作流程和经典网格生成工作流程,它们与日志语法对齐。

1 传统网格工作流程

可以使用PyFluent来访问与日志语法一致的经典网格工作流程。

1.1 Watertight geometry网格工作流

使用 Watertight Geometry 工作流来处理不需要大量清理或修改的封闭CAD几何体。以下示例展示了如何使用Watertight Geometry工作流。

1.1.1 导入几何

import ansys.fluent.core as pyfluent
from ansys.fluent.core import examples

import_file_name = examples.download_file('mixing_elbow.pmdb', 'pyfluent/mixing_elbow')
meshing = pyfluent.launch_fluent(
   mode="meshing", precision='double', processor_count=2
)
meshing.workflow.InitializeWorkflow(WorkflowType='Watertight Geometry')
meshing.workflow.TaskObject['Import Geometry'].Arguments = {
   'FileName': import_file_name, 'LengthUnit': 'in'
}
meshing.workflow.TaskObject['Import Geometry'].Execute()

1.1.2 添加局部尺寸

meshing.workflow.TaskObject['Add Local Sizing'].AddChildToTask()
meshing.workflow.TaskObject['Add Local Sizing'].Execute()

1.1.3 生成面网格

meshing.workflow.TaskObject['Generate the Surface Mesh'].Arguments = {
   'CFDSurfaceMeshControls': {'MaxSize': 0.3}
}
meshing.workflow.TaskObject['Generate the Surface Mesh'].Execute()

1.1.4 描述几何

meshing.workflow.TaskObject["Describe Geometry"].UpdateChildTasks(
   SetupTypeChanged=False
)
meshing.workflow.TaskObject["Describe Geometry"].Arguments = {
   SetupType: "The geometry consists of only fluid regions with no voids"
}
meshing.workflow.TaskObject["Describe Geometry"].UpdateChildTasks(SetupTypeChanged=True)
meshing.workflow.TaskObject["Describe Geometry"].Execute()

1.1.5 更新边界

meshing.workflow.TaskObject["Update Boundaries"].Arguments = {
   "BoundaryLabelList": ["wall-inlet"],
   "BoundaryLabelTypeList": ["wall"],
   "OldBoundaryLabelList": ["wall-inlet"],
   "OldBoundaryLabelTypeList": ["velocity-inlet"],
}
meshing.workflow.TaskObject["Update Boundaries"].Execute()

1.1.6 更新区域

meshing.workflow.TaskObject["Update Regions"].Execute()

1.1.7 添加边界层

meshing.workflow.TaskObject["Add Boundary Layers"].AddChildToTask()
meshing.workflow.TaskObject["Add Boundary Layers"].InsertCompoundChildTask()
meshing.workflow.TaskObject["smooth-transition_1"].Arguments = {
   "BLControlName": "smooth-transition_1",
}
meshing.workflow.TaskObject["Add Boundary Layers"].Arguments = {}
meshing.workflow.TaskObject["smooth-transition_1"].Execute()

1.1.8 生成体网格

meshing.workflow.TaskObject["Generate the Volume Mesh"].Arguments = {
   "VolumeFill": "poly-hexcore",
   "VolumeFillControls": {
       "HexMaxCellLength": 0.3,
   },
}
meshing.workflow.TaskObject["Generate the Volume Mesh"].Execute()

1.1.9 切换到solution模式

solver = meshing.switch_to_solver()

1.2 Fault-tolerant meshing工作流

使用Fault-tolerant网格划分工作流程可处理更复杂的非水密 CAD 几何图形,这些几何图形可能需要某种形式的清理或修改(例如,重叠、交叉、孔洞、重复等缺陷)。下面的示例展示了如何使用Fault-tolerant工作流程。

1.2.1 导入 CAD 和部件管理

import ansys.fluent.core as pyfluent
from ansys.fluent.core import examples

import_file_name = examples.download_file(
   "exhaust_system.fmd", "pyfluent/exhaust_system"
)
meshing = pyfluent.launch_fluent(precision="double", processor_count=2, mode="meshing")
meshing.workflow.InitializeWorkflow(WorkflowType="Fault-tolerant Meshing")
meshing.PartManagement.InputFileChanged(
   FilePath=import_file_name, IgnoreSolidNames=False, PartPerBody=False
)
meshing.PMFileManagement.FileManager.LoadFiles()
meshing.PartManagement.Node["Meshing Model"].Copy(
   Paths=[
       "/dirty_manifold-for-wrapper," + "1/dirty_manifold-for-wrapper,1/main,1",
       "/dirty_manifold-for-wrapper," + "1/dirty_manifold-for-wrapper,1/flow-pipe,1",
       "/dirty_manifold-for-wrapper," + "1/dirty_manifold-for-wrapper,1/outpipe3,1",
       "/dirty_manifold-for-wrapper," + "1/dirty_manifold-for-wrapper,1/object2,1",
       "/dirty_manifold-for-wrapper," + "1/dirty_manifold-for-wrapper,1/object1,1",
   ]
)
meshing.PartManagement.ObjectSetting["DefaultObjectSetting"].OneZonePer.set_state("part")
meshing.workflow.TaskObject["Import CAD and Part Management"].Arguments.set_state(
   {
       "Context": 0,
       "CreateObjectPer": "Custom",
       "FMDFileName": import_file_name,
       "FileLoaded": "yes",
       "ObjectSetting": "DefaultObjectSetting",
       "Options": {
           "Line": False,
           "Solid": False,
           "Surface": False,
       },
   }
)
meshing.workflow.TaskObject["Import CAD and Part Management"].Execute()

1.2.2 描述几何形状和流动

meshing.workflow.TaskObject["Describe Geometry and Flow"].Arguments.set_state(
   {
       "AddEnclosure": "No",
       "CloseCaps": "Yes",
       "FlowType": "Internal flow through the object",
   }
)
meshing.workflow.TaskObject["Describe Geometry and Flow"].UpdateChildTasks(
   SetupTypeChanged=False
)
meshing.workflow.TaskObject["Describe Geometry and Flow"].Arguments.set_state(
   {
       "AddEnclosure": "No",
       "CloseCaps": "Yes",
       "DescribeGeometryAndFlowOptions": {
           "AdvancedOptions": True,
           "ExtractEdgeFeatures": "Yes",
       },
       "FlowType": "Internal flow through the object",
   }
)
meshing.workflow.TaskObject["Describe Geometry and Flow"].UpdateChildTasks(
   SetupTypeChanged=False
)
meshing.workflow.TaskObject["Describe Geometry and Flow"].Execute()

1.2.3 封闭流体区域(封盖)

meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "CreatePatchPreferences": {
           "ShowCreatePatchPreferences": False,
       },
       "PatchName": "inlet-1",
       "SelectionType": "zone",
       "ZoneSelectionList": ["inlet.1"],
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "CreatePatchPreferences": {
           "ShowCreatePatchPreferences": False,
       },
       "PatchName": "inlet-1",
       "SelectionType": "zone",
       "ZoneLocation": [
           "1",
           "351.68205",
           "-361.34322",
           "-301.88668",
           "396.96205",
           "-332.84759",
           "-266.69751",
           "inlet.1",
       ],
       "ZoneSelectionList": ["inlet.1"],
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].AddChildToTask()

meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].InsertCompoundChildTask()
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state({})
meshing.workflow.TaskObject["inlet-1"].Execute()
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "PatchName": "inlet-2",
       "SelectionType": "zone",
       "ZoneSelectionList": ["inlet.2"],
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "PatchName": "inlet-2",
       "SelectionType": "zone",
       "ZoneLocation": [
           "1",
           "441.68205",
           "-361.34322",
           "-301.88668",
           "486.96205",
           "-332.84759",
           "-266.69751",
           "inlet.2",
       ],
       "ZoneSelectionList": ["inlet.2"],
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].AddChildToTask()

meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].InsertCompoundChildTask()
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state({})
meshing.workflow.TaskObject["inlet-2"].Execute()
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "PatchName": "inlet-3",
       "SelectionType": "zone",
       "ZoneSelectionList": ["inlet"],
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "PatchName": "inlet-3",
       "SelectionType": "zone",
       "ZoneLocation": [
           "1",
           "261.68205",
           "-361.34322",
           "-301.88668",
           "306.96205",
           "-332.84759",
           "-266.69751",
           "inlet",
       ],
       "ZoneSelectionList": ["inlet"],
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].AddChildToTask()

meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].InsertCompoundChildTask()
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state({})
meshing.workflow.TaskObject["inlet-3"].Execute()
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "PatchName": "outlet-1",
       "SelectionType": "zone",
       "ZoneSelectionList": ["outlet"],
       "ZoneType": "pressure-outlet",
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state(
   {
       "PatchName": "outlet-1",
       "SelectionType": "zone",
       "ZoneLocation": [
           "1",
           "352.22702",
           "-197.8957",
           "84.102381",
           "394.41707",
           "-155.70565",
           "84.102381",
           "outlet",
       ],
       "ZoneSelectionList": ["outlet"],
       "ZoneType": "pressure-outlet",
   }
)
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].AddChildToTask()

meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].InsertCompoundChildTask()
meshing.workflow.TaskObject["Enclose Fluid Regions (Capping)"].Arguments.set_state({})
meshing.workflow.TaskObject["outlet-1"].Execute()

1.2.4 提取边特征

meshing.workflow.TaskObject["Extract Edge Features"].Arguments.set_state(
   {
       "ExtractMethodType": "Intersection Loops",
       "ObjectSelectionList": ["flow_pipe", "main"],
   }
)
meshing.workflow.TaskObject["Extract Edge Features"].AddChildToTask()

meshing.workflow.TaskObject["Extract Edge Features"].InsertCompoundChildTask()

meshing.workflow.TaskObject["edge-group-1"].Arguments.set_state(
   {
       "ExtractEdgesName": "edge-group-1",
       "ExtractMethodType": "Intersection Loops",
       "ObjectSelectionList": ["flow_pipe", "main"],
   }
)
meshing.workflow.TaskObject["Extract Edge Features"].Arguments.set_state({})

meshing.workflow.TaskObject["edge-group-1"].Execute()

1.2.5 确定区域

meshing.workflow.TaskObject["Identify Regions"].Arguments.set_state(
   {
       "SelectionType": "zone",
       "X": 377.322045740589,
       "Y": -176.800676988458,
       "Z": -37.0764628583475,
       "ZoneSelectionList": ["main.1"],
   }
)
meshing.workflow.TaskObject["Identify Regions"].Arguments.set_state(
   {
       "SelectionType": "zone",
       "X": 377.322045740589,
       "Y": -176.800676988458,
       "Z": -37.0764628583475,
       "ZoneLocation": [
           "1",
           "213.32205",
           "-225.28068",
           "-158.25531",
           "541.32205",
           "-128.32068",
           "84.102381",
           "main.1",
       ],
       "ZoneSelectionList": ["main.1"],
   }
)
meshing.workflow.TaskObject["Identify Regions"].AddChildToTask()

meshing.workflow.TaskObject["Identify Regions"].InsertCompoundChildTask()

meshing.workflow.TaskObject["fluid-region-1"].Arguments.set_state(
   {
       "MaterialPointsName": "fluid-region-1",
       "SelectionType": "zone",
       "X": 377.322045740589,
       "Y": -176.800676988458,
       "Z": -37.0764628583475,
       "ZoneLocation": [
           "1",
           "213.32205",
           "-225.28068",
           "-158.25531",
           "541.32205",
           "-128.32068",
           "84.102381",
           "main.1",
       ],
       "ZoneSelectionList": ["main.1"],
   }
)
meshing.workflow.TaskObject["Identify Regions"].Arguments.set_state({})

meshing.workflow.TaskObject["fluid-region-1"].Execute()
meshing.workflow.TaskObject["Identify Regions"].Arguments.set_state(
   {
       "MaterialPointsName": "void-region-1",
       "NewRegionType": "void",
       "ObjectSelectionList": ["inlet-1", "inlet-2", "inlet-3", "main"],
       "X": 374.722045740589,
       "Y": -278.9775145640143,
       "Z": -161.1700719416913,
   }
)
meshing.workflow.TaskObject["Identify Regions"].AddChildToTask()

meshing.workflow.TaskObject["Identify Regions"].InsertCompoundChildTask()

meshing.workflow.TaskObject["Identify Regions"].Arguments.set_state({})

meshing.workflow.TaskObject["void-region-1"].Execute()

1.2.6 定义泄漏阈值

meshing.workflow.TaskObject["Define Leakage Threshold"].Arguments.set_state(
   {
       "AddChild": "yes",
       "FlipDirection": True,
       "PlaneDirection": "X",
       "RegionSelectionSingle": "void-region-1",
   }
)
meshing.workflow.TaskObject["Define Leakage Threshold"].AddChildToTask()

meshing.workflow.TaskObject["Define Leakage Threshold"].InsertCompoundChildTask()
meshing.workflow.TaskObject["leakage-1"].Arguments.set_state(
   {
       "AddChild": "yes",
       "FlipDirection": True,
       "LeakageName": "leakage-1",
       "PlaneDirection": "X",
       "RegionSelectionSingle": "void-region-1",
   }
)
meshing.workflow.TaskObject["Define Leakage Threshold"].Arguments.set_state(
   {
       "AddChild": "yes",
   }
)
meshing.workflow.TaskObject["leakage-1"].Execute()

1.2.7 更新区域设置

meshing.workflow.TaskObject["Update Region Settings"].Arguments.set_state(
   {
       "AllRegionFilterCategories": ["2"] * 5 + ["1"] * 2,
       "AllRegionLeakageSizeList": ["none"] * 6 + ["6.4"],
       "AllRegionLinkedConstructionSurfaceList": ["n/a"] * 6 + ["no"],
       "AllRegionMeshMethodList": ["none"] * 6 + ["wrap"],
       "AllRegionNameList": [
           "main",
           "flow_pipe",
           "outpipe3",
           "object2",
           "object1",
           "void-region-1",
           "fluid-region-1",
       ],
       "AllRegionOversetComponenList": ["no"] * 7,
       "AllRegionSourceList": ["object"] * 5 + ["mpt"] * 2,
       "AllRegionTypeList": ["void"] * 6 + ["fluid"],
       "AllRegionVolumeFillList": ["none"] * 6 + ["tet"],
       "FilterCategory": "Identified Regions",
       "OldRegionLeakageSizeList": [""],
       "OldRegionMeshMethodList": ["wrap"],
       "OldRegionNameList": ["fluid-region-1"],
       "OldRegionOversetComponenList": ["no"],
       "OldRegionTypeList": ["fluid"],
       "OldRegionVolumeFillList": ["hexcore"],
       "RegionLeakageSizeList": [""],
       "RegionMeshMethodList": ["wrap"],
       "RegionNameList": ["fluid-region-1"],
       "RegionOversetComponenList": ["no"],
       "RegionTypeList": ["fluid"],
       "RegionVolumeFillList": ["tet"],
   }
)
meshing.workflow.TaskObject["Update Region Settings"].Execute()

1.2.8 选择网格控制选项

meshing.workflow.TaskObject["Choose Mesh Control Options"].Execute()

1.2.9 生成面网格

meshing.workflow.TaskObject["Generate the Surface Mesh"].Execute()

1.2.9 更新边界

meshing.workflow.TaskObject["Update Boundaries"].Execute()

1.2.10 添加边界层

meshing.workflow.TaskObject["Add Boundary Layers"].AddChildToTask()

meshing.workflow.TaskObject["Add Boundary Layers"].InsertCompoundChildTask()

meshing.workflow.TaskObject["aspect-ratio_1"].Arguments.set_state(
   {
       "BLControlName": "aspect-ratio_1",
   }
)
meshing.workflow.TaskObject["Add Boundary Layers"].Arguments.set_state({})

meshing.workflow.TaskObject["aspect-ratio_1"].Execute()

1.2.11 生成体网格

meshing.workflow.TaskObject["Generate the Volume Mesh"].Arguments.set_state(
   {
       "AllRegionNameList": [
           "main",
           "flow_pipe",
           "outpipe3",
           "object2",
           "object1",
           "void-region-1",
           "fluid-region-1",
       ],
       "AllRegionSizeList": ["11.33375"] * 7,
       "AllRegionVolumeFillList": ["none"] * 6 + ["tet"],
       "EnableParallel": True,
   }
)
meshing.workflow.TaskObject["Generate the Volume Mesh"].Execute()

1.2.12 切换至solution模式

solver = meshing.switch_to_solver()

1.3 命令参数使用示例

这个简单的例子展示了如何在一个Watertight Geometry工作流中使用CommandArgument属性和显式属性访问方法。

注意:CommandArgument 属性为只读属性。

import ansys.fluent.core as pyfluent
from ansys.fluent.core import examples

import_file_name = examples.download_file("mixing_elbow.pmdb", "pyfluent/mixing_elbow")
meshing = pyfluent.launch_fluent(mode="meshing", precision="double", processor_count=2)
w = meshing.workflow
w.InitializeWorkflow(WorkflowType="Watertight Geometry")

w.TaskObject["Import Geometry"].CommandArguments()
w.TaskObject["Import Geometry"].CommandArguments.FileName.is_read_only()
w.TaskObject["Import Geometry"].CommandArguments.LengthUnit.is_active()
w.TaskObject["Import Geometry"].CommandArguments.LengthUnit.allowed_values()
w.TaskObject["Import Geometry"].CommandArguments.LengthUnit.default_value()
w.TaskObject["Import Geometry"].CommandArguments.LengthUnit()
w.TaskObject["Import Geometry"].CommandArguments.CadImportOptions.OneZonePer()
w.TaskObject["Import Geometry"].CommandArguments.CadImportOptions.FeatureAngle.min()

1.4 一些改进

可以调用TaskObject来获取其状态:

meshing.workflow.TaskObject()

TaskObject中的项目现在可以通过设置字典风格来访问:

for name, object in meshing.workflow.TaskObject.items():
   ...
 

注:本文内容取自PyFluent UserGuide。


来源:CFD之道
MeshingACTFluentSystemUGCAPP控制
著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2024-06-23
最近编辑:5月前
CFD之道
博士 | 教师 探讨CFD职场生活,闲谈CFD里外
获赞 2567粉丝 11316文章 735课程 27
点赞
收藏
未登录
还没有评论
课程
培训
服务
行家
VIP会员 学习 福利任务 兑换礼品
下载APP
联系我们
帮助与反馈