ANSYS Meshing Advanced Techniques

17.0 Release ANSYS Meshing Advanced Techniques PADT Lunch & Learn Series

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Overview ANSYS Meshing Overview Advanced Tet Methods Advanced Hex Methods Selective Meshing Methods Using Global Meshing Methods Using Local Meshing Methods Clean Up Tools Quality Metrics Meshing Tips and Tricks 3 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

What is ANSYS Meshing ANSYS Meshing is a component of ANSYS Workbench Meshing platform Combines and builds on strengths of preprocessing offerings from ANSYS: ICEM CFD, TGRID (Fluent Meshing), CFX-Mesh, Gambit Able to adapt and create Meshes for different Physics and Solvers CFD: Fluent, CFX and POLYFLOW Mechanical: Explicit dynamics, Implicit Electromagnetic Integrates directly with other WB systems 4 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

What are the Element Types Tetrahedral Hexahedral Polyhedral (CFD) 5 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Advanced Tet Methods 6 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Hexahedral vs. Tetrahedral Elements Advantages of tetrahedral over hexahedral: Easier to mesh more complex geometry: Mesh quality is often easier to achieve with tetrahedral (or poly) mesh Tet mesh can be easily converted to hex mesh, but if the quality is bad, what s the point? 1 tet to 4 hex Mesh transitioning with hex mesh can be problematic Small mesh size on holes need to transition to larger size elsewhere, but transitioning hex mesh can be a problem All Hex Choosing the proper mesh element type will improve the mesh generation efficiency 7 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Patch Conforming versus Independent 8 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Tetrahedral Methods Patch Conforming Bottom up approach: Meshing process Edges Faces volume All faces and their boundaries are respected (conformed to) and meshed (except with defeaturing tolerance) Good for high quality (clean) CAD geometries CAD cleanup required for dirty geometry Sizing is defined by global and/or local controls Compatible with inflation To access it Insert Method Set to Tetrahedrons Set to Patch Conforming Patch Independent Top down approach: Meshing process Volume meshed first projected on to faces & edges Faces, edges & vertices not necessarily conformed Controlled by tolerance and scoping of Named Selection, load or other object Good for gross de-featuring of poor quality (dirty) CAD geometries Method Details contain sizing controls Compatible with inflation To access it Insert Method Set to Tetrahedrons Set to Patch Independent 9 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Tetrahedral Method: Algorithm comparison Patch conforming : details caputred Patch independent : details ignored Delaunay mesh - smooth growth rate Octree mesh. approximate growth rate Geometry with small details 10 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Advanced Hex Methods 11 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Hexahedral versus Tetrahedral Elements Advantages of hexahedral over tetrahedral: Less elements = Faster solution time with better accuracy Naturally anisotropic: Fewer elements required as mesh is aligned with the physics Fewer elements for given number of nodes 3 mostly parallel sets of faces (improves solution accuracy) However, this assumes the geometry is such that the hex mesh is more efficient and that the structured mesh aligns to the physics 12 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Hexahedral Mesh Hex Meshing Reduced element count Reduced run time Elements aligned in direction of flow Reduced numerical error Tetra mesh - 48 000 Cells Hexa mesh - 19 000 Cells Initial Requirements Clean geometry May require geometric decomposition 13 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Sweep Meshing Source & Target selection Automatic Source & Target faces identified automatically Requires that the mesher find the sweeping direction Manual source & Manual source and target User selection Source face colored in red Target face colored in blue Rotational Sweeping Sweep around an axis Requires selection of both - Source & target Note Specifying both Source & Target accelerate meshing Define the number of intervals on the side face(s) Generation of wedges & hex elements Sweep Path 14 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Multizone Meshing Mesh Method & Behavior Based on blocking approach (ANSYS ICEM CFD Hexa) Automatically decomposes geometry into blocks Generates structured hexa mesh where block topology permits Remaining region filled with unstructured Hexa Core or Tetra or Hexa dominant mesh Src/Trg Selection Automatic or Manual source selection Multiple source faces Select Target faces as Source Compatible with 3D Inflation To access it Insert Method Set to Multizone 15 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Automatic Method Mesh Method & Behavior Combination of Tetrahedron Patch Conforming and Sweep Method Automatically identifies sweepable bodies and creates sweep mesh All non-sweepable bodies meshed using tetrahedron Patch Conformal method Compatible with inflation To access it Default method Insert method Set to Automatic 16 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Meshing Options Global Meshing Parameters Global Settings - Physics Preference - Shape Checking Global Sizing - Size Functions - Relevance Center Global Inflation Layers Advanced Settings - Number of CPUS Mesh Statistics Local Meshing Parameters Mesh Method - Tet, Hex, Multizone, Sweep Advanced Tools - Inflation, Pinch and match controls Local Sizings - Edge, Face, Body Mesh Edit Tools - Node move/merge - Contact Match 17 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Global Meshing Methods 18 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Global Mesh Controls Global mesh controls are used to make global adjustment in the meshing strategy, which includes sizing functions, inflation, smoothing, defeaturing, parameter inputs, assembly meshing Minimal inputs Automatically calculates global element sizes based on the smallest geometric entity Smart defaults are chosen based on physics preference Makes global adjustments for required level of mesh refinement Advanced Size Functions for resolving regions with curvatures and proximity of surfaces Smart defaults! 19 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Defaults Five options under Physics Preference Mechanical, Nonlinear Mechanical, Electromagnetics, CFD and Explicit Three options under Solver Preference when CFD is selected Fluent, CFX and Polyflow Mesh setting defaults are automatically adjusted to suit the Physics Preference and Solver Preference The Nonlinear Mechanical Physics Preference Option has been added in R17.0 and may results in higher mesh quality for FEA users 20 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Sizing: Size Function Controls the growth and distribution of mesh in important regions of high curvature or close proximity of surfaces Five Options: Adaptive Proximity and Curvature Curvature Proximity Uniform When CutCell Meshing is active with Proximity or Proximity and Curvature, Proximity Size Function Sources control is displayed to specify the regions of proximity between Edges, Faces or Faces and Edges in the computation of Proximity Size Function (SF) 21 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Sizing: Sizing Function Examples SF: Adaptive The edges are meshed with global Element Size Then the edges are refined for curvature and 2D proximity At the end, corresponding face and volume mesh is generated Transition of cell size is defined by Transition SF: Curvature Determines the Edge and Face sizes based on Curvature Normal Angle Finer Curvature Normal Angle creates finer surface mesh Transition of cell size is defined by Growth Rate SF: Proximity Controls the mesh resolution on proximity regions in the model Fits in specified number of elements in the narrow gaps Higher Number of Cells Across Gap creates more refined surface mesh Transition of cell size is defined by Growth Rate 22 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Sizing: Element Size Element Size (only available when the size function is set to Adaptive) Element size used for the entire model This size will be used for meshing all edges, faces and bodies Default value based on Relevance and Initial Size Seed User can input required value as per geometry dimensions 23 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Local Meshing Methods 24 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Sizing Recommended for locally defining the mesh sizes You can only scope sizing to one geometry entity type at a time For example: you can apply sizing to a number of edges or a number of faces, but not a mix of edges and faces Four Types of Sizing option Element Size specifies average element edge length on bodies, faces or edges Number of Divisions specifies number of elements on edge(s) Body of Influence specifies average element size within a body Sphere of Influence specifies average element size within the sphere Sizing options vary depending on the entity type chosen Entity/Option Element Size Number of Divisions Body of Influence Sphere of Influence Vertices x Edges x x x Faces x x Bodies x x x Only Element Size type is available for CutCell meshing Advanced Size Function in Global settings should be disabled Requires a Coordinate system for the sphere 25 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Sizing: Sphere of Influence On Vertex Available with or without Advanced Size Functions Sets the average element size around the selected vertex Inputs: Sphere radius and Element size Center of the sphere is defined by a model vertex On Bodies Available with or without Advanced Size Functions Constant element size is applied within the confines of a sphere Use coordinate system to define the center of the Sphere 26 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Sizing: Bodies of Influence Bodies of influence (BOI) Lines, surfaces and solid bodies can be used to refine the mesh Accessible when ASF is On Not available for CutCell meshing Line BOIs Surface BOI Solid BOI The Body of Influence itself will not be meshed Without BOIs 27 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Face Meshing Control Forces Mapped/Pave meshes on selected mappable surfaces Face Meshing with advanced control is supported for Sweep, Patch Conforming, Hexa Dominant Quad Dominant and Triangles MultiZone Uniform Quad/Tri and Uniform Quad RMB on Mesh and Show/Mappable Faces to display all mappable faces If Face Meshing fails, ( ) icon appears adjacent to corresponding object in the Tree outline. The mesh will still be created but will ignore this control. 28 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Face Mesh Control: Advanced Vertex Options Sweep/MultiZone (2D and 3D) support for Advanced Vertex options on Face meshing S S S S S Denoted by S, C or E S 29 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Match Control Define periodicity on faces (3D) or edges (2D) The two faces or edges should be topologically and geometrically the same A match control can only be assigned to one unique face/edge pair Match controls are not supported with Post Inflation Algorithm Match Control with Patch Independent tetrahedrons not supported yet Two types of match controls available: Cyclic and Arbitrary Not available for CutCell meshing Matching face mesh If Match Control fails, ( ) icon appears adjacent to corresponding object in the outline Tree, however the mesh is created ignoring it 30 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Symmetry Control Define mesh periodicity on faces (3D) or edges (2D) Faces/edges pairs should be topologically and geometrically identical Can be assigned to several face/edge pairs at once Not supported with Assembly Meshing Post Inflation Algorithm Patch Independent tetrahedrons Two types of Symmetry Controls useful for CFD: Cyclic for rotational periodicity Linear Periodic for translational periodicity Matching face mesh 31 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Inflation Used to generate prism layers (as explained in Global settings chapter) Inflation layer can be applied to faces or bodies using respectively edges or faces as the boundary Inflation layer grown on edge boundary (red) Inflation layer grown on face boundary (red) 32 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Contact Match Mesh Connect mesh at mesh level At R17 only works with tet mesh Could avoid problems with shared topology Notes: Mesh generated as separate parts Use Contact Match controls to match mesh Create Named Selection to inspect matched mesh Node merge can be added as second step to make mesh conformal 33 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Nonlinear Adaptive Mesh Nonlinear Adaptive Region Enables you to change the mesh during the solution phase to improve precision without incurring a great deal of computational penalties. The Nonlinear Adaptive Region feature is completely automatic. Limitations: All 2D elements, Only Linear 3D elements 34 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Selective Meshing Methods 35 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Selective Mesh What is selective meshing? Selectively picking bodies and meshing them incrementally Why selective meshing? Bodies can be meshed individually Mesh seeding from meshed bodies influences neighboring bodies (user has control) Automated meshing can be used at any time to mesh all remaining bodies When controls are added, only affected body meshes require remeshing Selective body updating Extensive mesh method interoperability 36 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Selective Mesh Meshing first the pipe then the block Local Meshing Clear meshes on individual bodies Generate meshes on individual bodies Subsequent bodies will use the attached face mesh The meshing results (cell types) will depend on the meshing order Adjust/add controls able to remesh only affected body Meshing first the block then the pipe Select body(s) Right click 37 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Selective Mesh Recording Mesh Operations Example : Meshing cylinder first and then block Use it to record the order of meshing to automate future use Right click Mesh in the Outline to access it A Worksheet is generated Record mesh operations as ordered steps Named Selections are automatically created for each meshed body for reference in the Worksheet We can create Named Selection to define an order 38 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Selective Mesh Selective Body Updating Remeshing only bodies that have changed Access option through RMB click on Geometry Properties No: All geometry updated, all bodies remeshed. Associatively: Accommodates for body topology change (add/delete) (slower) Non-Associatively: Assumes no topology change (faster) Example : Geometric change to block 39 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Clean Up Tools 40 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Node Merge & Node Move Node Merge: enables to merge mesh nodes within a specified tolerance, making the mesh conformal across bodies, parts, and assemblies. Node Merge can be performed on solid, sheet, and line bodies Node Move: Dynamically pick and drag nodes around (quality plots updated real time) History of moves is recorded in Worksheet and allows for Undo Note: If you update your mesh (Mesh object>update), the application maintains your movements in the Worksheet until the mesh is cleared (zero nodes) using the RMB option Clear Generated Data or you refresh data from the CAD source; In these cases all the Node Move movements are lost 41 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Mesh Connections Mesh Connections: enable you to join the meshes of topologically disconnected surface bodies that may reside in different parts. This is an alternative to connecting the geometry in SpaceClaim or DM 42 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Contact Matches Contact Matches: enable you to match mesh nodes between topologically disconnected solids within a specified tolerance. They are an alternate option to imprinting faces in SpaceClaim or DM. 43 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Defeaturing Removes small geometry features meeting the tolerances using Pinch or/and Automatic Mesh Based Defeaturing controls in order to improve the mesh quality. Automatic Mesh Based Defeaturing (AMBD) when it is On, features smaller than or equal to the value of Defeaturing Tolerance are removed automatically. Note: Defeaturing Tolerance can be set maximum up to Global Min Size/2. Use a high value for Global Min Size and use Local Sizing controls for defining Local Min Sizes smaller than this value. Defeaturing will respect local min sizes and will clean only those faces/bodies with no local control. This approach is recommended over Virtual Topology AMBD Off AMBD On 44 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Pinch To improve quality Pinch control removes small features (edges or narrow regions) at the mesh level The Pinch feature is supported for the following mesh methods: Patch Conforming Tetrahedrons Thin Solid Sweeps Hex Dominant meshing Quad Dominant Surface Meshing Triangles Surface meshing Not supported for CutCell meshing 45 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Pinch Pinch control removes small features automatically or manually at the mesh level Slivers Short Edges Sharp Angles The Pinch feature works on vertices and edges only The Pinch feature is supported for the following mesh methods: Patch Conforming Tetrahedrons Thin Solid Sweeps Hex Dominant meshing Quad Dominant Surface meshing Triangles Surface meshing Not supported for CutCell Patch Independent Multizone & General Sweep before after before after Vertex-Vertex Edge-Edge 46 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Diagnostics: Close vertices (New in R17.0) Close Vertices: Checks for vertices that are very close together: Scale can be adjusted depending on model sizes 47 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Virtual Topology When to use? To merge together a number of small (connected) faces/edges To simplify small features in the model To simplify load abstraction for mechanical analysis To create edge splits for better control of the surface mesh control Virtual cells modify topology Original CAD model remains unchanged New faceted geometry is created with virtual topology Restrictions Limited to developable surfaces Virtual Faces cannot form a closed region Without VT automatically With VT manually 48 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Virtual Topology In some instances it may be desirable to modify topology to allow application of some desired effect (e.g., mesh control, load, support, ): Split face at vertices Split Edge Add a hard vertex 49 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Quality Metrics 50 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Impact of the Mesh Quality Good quality mesh means that Mesh quality criteria are within correct range Orthogonal quality Mesh is valid for studied physics Boundary layer Solution is grid independent Important geometric details are well captured Bad quality mesh can cause Convergence difficulties Bad physics description Diffuse solution User must Check quality criteria and improve grid if needed Think about model and solver settings before generating the grid Perform mesh parametric study, mesh adaption 51 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Mesh Statistics and Mesh Metrics Displays mesh information for Nodes and Elements List of quality criteria for the Mesh Metric Select the required criteria to get details for quality It shows minimum, maximum, average and standard deviation Different physics and different solvers have different requirements for mesh quality Mesh metrics available in ANSYS Meshing include: Element Quality Aspect Ratio Jacobean Ration Warping Factor Parallel Deviation Maximum Corner Angle Skewness Orthogonal Quality For Multi-Body Parts, go to corresponding body in Tree Outline to get its separate mesh statistics per part/body 52 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Element Quality Element Quality: Composite quality metric that ranges between 0 and 1 Ratio of the volume to the square root of the cube of the sum of the square of the edge lengths for 3D elements 2D quad/tri elements: 3D brick elements: 0 1 Worst Perfect 53 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Aspect Ratio 2-D: Length / height ratio: δx/δy 3-D Area ratio Radius ratio of circumscribed / inscribed circle Limitation for some iterative solvers A < 10 100 (CFX: < 1000) Large aspect ratio are accepted where there is no strong transverse gradient (boundary layer...) δy 1 Perfect Worst δx 54 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Jacobian Ratio Jacobian Ratio = R jmax R jmin Where R j = det(j F ) at sampling locations and J F = F 1 x F 2 x F 1 y F 2 y in 2D Jacobian Ratio 1 If R jmax and R jmin have opposite signs then the Jacobian ratio = -100 and is unacceptable 1 Perfect Worst 55 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Skewness Skewness: 0-1 Two methods for determining skewness: Equilateral Volume deviation: Skewness = Applies only for triangles and tetrahedrons Normalized Angle deviation: Skewness = max e 180 e optimal cell size cell size optimal cell size max, e e min min max Optimal (equilateral) cell Actual cell Circumsphere Where θ e is the equiangular face/cell (60 for tets and tri s, and 90 for quads and hexas) Applies to all cell and face shapes Used for hexa, prisms and pyramids 0 1 Perfect Worst 56 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Orthogonal Quality Orthogonal Quality (OQ) Derived directly from Fluent solver discretization For a cell it is the minimum of: Ai f Ai f i i Ai ci Ai ci computed for each face i On cell For the face it is computed as the minimum of Ai ei Ai ei Where Ai is the face normal vector and fi is a vector from the centroid of the cell to the centroid of that face, and ci is a vector from the centroid of the cell to the centroid of the adjacent cell, where ei is the vector from the centroid of the face to the centroid of the edge computed for each edge I At boundaries and internal walls ci is ignored in the computations of OQ c 1 c 3 A 3 A 1 f 3 f 1 f 2 c 2 A 2 A 1 A 3 e 3 On face e 1 e 2 A 2 0 1 Worst Perfect 57 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Smoothness Checked in solver Volume Change in Fluent Available in Adapt/Volume 3D : σ i = V i / V nb Recommendation: Good: 1.0 < σ < 1.5 Fair: 1.5 < σ < 2.5 Poor: σ > 5 20 Expansion Factor in CFX Checked during mesh import Ratio of largest to smallest element volumes surrounding a node 58 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

CFD Mesh Quality Mesh quality recommendations Low Orthogonal Quality or high skewness values are not recommended Generally try to keep minimum orthogonal quality > 0.1, or maximum skewness < 0.95. However these values may be different depending on the physics and the location of the cell Fluent reports negative cell volumes if the mesh contains degenerate cells Skewness mesh metrics spectrum Orthogonal Quality mesh metrics spectrum 59 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Mechanical Shape Checking Standard Mechanical - Linear, modal, stress and thermal analysis Aggressive Mechanical - Large deformation and nonlinear analysis Nonlinear Mechanical - Nonlinear analysis 60 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Factors Affecting Quality Geometry problems Small edge Gaps Sharp angle Meshing parameters Sizing Function On / Off Min size too large Inflation parameters Total height Maximum angle Hard sizing Meshing methods Patch conformal or patch independent tetra Sweep or Multizone Cutcell Geometry cleanup in SpaceClaim or Virtual topology & pinch in Meshing Mesh setting change Mesh setting change 61 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Display Option: Color by quality Displays mesh color by quality metrics Options to probe quality or show min/max Contour band can be adjusted Probe Element Values Find Min or Max value Display mesh contours 62 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Mesh Metric Graph Displays Mesh Metrics graph for the element quality distribution Different element types are plotted with different color bars Can be accessed through menu bar using Metric Graph button Axis range can be adjusted using controls button (details next slide) Click on bars to view corresponding elements in the graphics window Use to help locate poor quality elements 63 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Mesh Metric Graph Controls Elements on Y-Axis can be plotted with two methods; Number of Elements Percentage of Volume/Area Options to change the range on either axis Specify which element types to include in graph Tet4 = 4 Node Linear Tetrahedron Hex8 = 8 Node Linear Hexahedron Wed6 = 6 Node Linear Wedge (Prism) Pyr5 = 5 Node Linear Pyramid Quad4 = 4 Node Linear Quadrilateral Tri3 = 3 Node Linear Triangle Te10, Hex20, Wed15, Pyr13, Quad8 & Tri6 non-linear elements For more information about the different mesh metrics please consult module 05: Mesh Quality 64 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Grid Dependency Study Solution run with multiple meshes Note : For all runs the computed Y+ is valid for wall function (first cell not in laminar zone) DP 0 DP 3 x8 2% 65 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Grid Dependency Study Option 1: Run Convergence Study on Result of interest Option 2: Set up convergence study by parameterizing mesh sizing 66 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Parameterizing Your Model and Mesh 67 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Named Selections Create Named Selections for all surfaces that have a load or support applied Create Named Selections for all surfaces/bodies that have a mesh setting applied Assign loads, boundary conditions, and mesh settings to Named Selections 68 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Parameterize your Model Geometry Material Properties Mesh Loads Results Command Snippets UDF s 69 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Tips and Tricks 70 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Tips and Tricks ACT Extensions: FE Info 17.0: Locates nodes and elements by IDs Iterative Meshing 17.0: Iterated through mesh configurations and reports best mesh Mesh Settings 17.0: Export mesh settings to re-use in another project Workbench Poly Meshing for Fluent 17.0: Create Fluent meshing polyhedral meshes in the Workbench meshing interface. Nonlinear Diagnostics: Identify and display highly distorted elements after solver failure 71 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential

Questions? 72 2016 ANSYS, Inc. April 17, 2017 ANSYS Confidential