Tender For Ansys Academic Research Mech And Cfd Software, Krishnagiri-Tamil Nadu

Ansys Academic Research Mech And Cfd Software , Electrical Items : , Ansys Academic-Research Mech And Cfd Software Tool ( One Task ) Technical Specifications The Software Tool Shall Contain The Following Features 1. Finite Element Analysis ( Fea ) The Structural / Mechanical Finite Element Analysis Software Tool Shall Comply With Following Specifications. Design Tool For Analysis General Capabilities Of Pre-Processing Tools: The Preprocessors ( Geometry Modeling Tool And The Mesh Generator ) Should Have The Following Capabilities A ) Direct Modelling Technology B ) Open Data From All Major Cad Systems C ) Feature Based Modelling Technology D ) Export Data To Neutral File Formats E ) Modify Imported Geometry F ) Defeaturing And Simplification Tools G ) Model Repair H ) Add Parameters For Design Exploration I ) Extract Mid-Surfaces / Shells And Beams J ) Extract Volumes & Create Inner Fluid Domains K ) Extract Outer Air Enclosures L ) Shared Topology For Conformal Meshing M ) Booleans And Slicing N ) Create Weld Bodies O ) Boundary Condition Mapping P ) Scripting Q ) Sketching And Editing Tools R ) 3D Comparison Tools S ) Repair And Edit Faceted Data T ) Reverse Engineering Faceted Data Meshing Capabilities A ) Physics And Solver Based Setting: Mechanical, Cfd, Implicit, Explicit, Electromagnetics. B ) Advanced Sizing Function C ) Smoothening D ) Element Size E ) Assembly Mesh F ) Advanced Settings: Parallel Meshing, Shape Checking, Element Mid-Side Node, Rigid Body Behavior G ) Defeaturing: Pinch Tolerance, Automatic Mesh Based Defeaturing, Statistics Local Mesh Control A ) Sizing: Contact Sizing, Mapped Face Meshing, Refinement, Match Control, Pinch, Inflation, Object Generator B ) Meshing Methods: Tetrahedral, Hex, Sweep, Multizone C ) Mesh Solution Features: Selective Meshing, Section Planes, Virtual Topology Mosaic Mesh Technology A ) Creating A Volume Mesh From An Imported Surface Mesh B ) Creating A Volume Mesh From Imported Cad Geometry C ) Improving Mesh Quality With Auto Node Move D ) Optimal Settings For Transferring Geometry From Cad Tool E ) Converting Hexahedral Mesh To Unstructured Polyhedral Mesh F ) Mastery Of Sizing Functions G ) Wrapping Single Parts H ) Wrapping Dirty, Complex Assemblies Finite Element Modeling And Solver Deck Creation. Geometric Idealization A ) Spring B ) Mass C ) Damper D ) Spar E ) Beam F ) Cable G ) Pipe / Elbow H ) Shell - Thin I ) Layered Shell - Thin ( Composite ) J ) Shell - Thick ( Solid Shell ) K ) Layered Shell - Thick ( Solid Shell ) ( Composite ) L ) 2D Plane / Axisymmetric M ) 3D Solids N ) Layered 3D Solids ( Composite ) O ) Infinite Domain P ) 2.5D Elements Q ) Reinforcement Elements R ) Coupled Field Rom Element Technology S ) Iso-Geometric Analysis ( Iga ) Modeling Capabilities A ) Contact - Linear B ) Contact - Nonlinear C ) Joints D ) Seam Welds E ) Spot Welds F ) Element Birth And Death G ) Gasket Elements H ) Rezoning And Adaptive Remeshing I ) Inverse Analysis Materials A ) Basic Linear Materials ( Linear, Anisotropic, Temperature Dependent ) B ) Basic Nonlinear Materials ( Hyperelastic, Plasticity, Rate Independent, Isotropic, Concrete, Viscoelasticity ) C ) Advanced Nonlinear Materials ( Rate Dependent, Anisotropic, Damage Models, Geomechanics Materials, Multiphysics, Acoustics ) D ) Field Dependent E ) User Defined Materials F ) Fracture Mechanics And Crack Growth G ) Materials Multiscale Homogenization Composite Materials A ) Material Definitions B ) Ply Definitions C ) Interface Layers D ) Advanced Ply Modeling Features E ) Variable Material Data F ) Solid Extrusion G ) Lay-Up Mapping H ) Draping I ) Lay-Up Exchange Interfaces J ) Advanced Failure Criteria Library K ) First-Ply Failure L ) Last-Ply Failure M ) Delamination N ) Sandwich Modeling O ) Automation / Run Scripts P ) Short Fiber Composites Structural Solver Capabilities A ) Linear Static B ) Nonlinear Static C ) Pre-Stress Effects, Linear Perturbation D ) Nonlinear Geometry E ) Buckling - Linear Eigenvalue F ) Buckling - Nonlinear Post Buckling Behavior G ) Buckling - Nonlinear Post Buckling Behavior - Arc Length H ) Steady State Analysis Applied To A Transient Condition I ) Advanced Wave Loading Multi Analysis A ) Submodeling B ) Data Mapping C ) Multiphysics Data Mapping D ) Initial State E ) Advanced Multi-Stage 2-D To 3-D Analysis Vibrations A ) Modal B ) Modal - Pre-Stressed C ) Modal - Damped / Unsymmetric D ) Transient - Mode-Superposition E ) Harmonic - Mode-Superposition F ) Harmonic - Full G ) Spectrum H ) Random Vibration I ) Mistuning J ) Rotordynamics K ) Multi-Stage Cyclic Symmetry Nonlinear Transient Dynamics A ) Rigid Body Mechanisms B ) Rigid Body Dynamics With Cms L Components For Flexible Bodies C ) Full Transient D ) Cms With Substructuring E ) Mixed Rigid - Flexible Systems Explicit Dynamics A ) Fe ( Lagrange ) Solver B ) Euler Solvers C ) Implicit-Explicit Material States D ) Mass Scaling E ) Natural Fragmentation F ) Erosion Based On Multiple Criteria G ) De-Zoning H ) Part Activation And Deactivation ( Multi Stage Analysis ) I ) Explicit Time Integration Durability A ) Stress-Life ( Sn ) B ) Strain-Life ( En ) C ) Safety Factor D ) Vibration Fatigue Wave Hydrodynamics A ) Diffraction And Radiation B ) Frequency & Time Domain Motions Analysis C ) Moorings, Joints & Tethers D ) Load Transfer To Structural Analysis E ) Internal Tanks Thermal A ) Steady State Thermal B ) Transient Thermal C ) Conduction D ) Convection E ) Radiation To Space F ) Radiation - Surface To Surface G ) Phase Change H ) Thermal Analysis Of Layered Shells And Solids Additional Physics A ) 1-D Thermal-Flow B ) 1-D Coupled-Field Circuits C ) 1-D Electromechanical Transducer D ) Mems Rom E ) Piezoelectric F ) Piezoresistive G ) Electromagnetic H ) Electro-Migration I ) Diffusion-Pore-Fluid J ) Structural-Thermal-Electric-Magnetic K ) 1-Way Fluid-Structure Interaction L ) 2-Way Fluid-Structure Interaction M ) Multi-Scale Modeling N ) Implicit Time Integration Optimization A ) Designxplorer Included B ) Parameters C ) Design Point Studies D ) Correlation Analysis E ) Design Of Experiments F ) Sensitivity Analysis G ) Goal Driven Optimization H ) Six Sigma Analysis Miscellaneous And Usability A ) Ansys Spaceclaim B ) Ansys Customization Suite ( Acs ) C ) Support Act Extensions D ) Journaling And Scripting E ) Command Snippet Support F ) Batch Run Capability G ) Read / Write 3Rd Party Matrix Cae Data H ) Cdb And 3Rd Party Fe Model Import I ) Nastran Bulk File Export J ) Global / Selective Mass Scaling K ) Keyword Input L ) Splitting Of Input File Into Subfiles M ) User Subroutines N ) Re-Mapping O ) Transmitting Boundaries P ) Dynamic Storage Allocation Q ) Extensive Output Data Controls ( Ascii / Binary ) R ) Interactive Real-Time Graphics S ) Double Precision 2. Computational Fluid Dynamics ( Cfd ) The Computational Fluid Dynamics ( Cfd ) Software Tool Will Comply To Following Specifications. General Solver Capabilities A ) Comprehensive Inlet And Outlet Conditions B ) Steady-State Flow C ) Transient Flow D ) 2-D And 3-D Flow E ) Time Dependent Boundary Conditions F ) Customizable Materials Library G ) Granta Materials Data For Simulation H ) Fan Model J ) Periodic Domains K ) Flow-Driven Solid Motion ( 6Dof ) L ) Pressure-Based Coupled Solver M ) Density-Based Coupled Solver N ) Dynamic / Moving-Deforming Mesh O ) Overset Mesh P ) Immersed-Solid / Mst Method For Moving Parts Q ) Automatic On-The-Fly Mesh Generation With Dynamic Refinement R ) Dynamic Solution-Adaptive Mesh Refinement S ) Polyhedral Unstructured Solution-Adaptive Mesh Refinement Single Phase, Non-Reacting Flows A ) Incompressible Flow B ) Compressible Flow C ) Porous Media D ) Non-Newtonian Viscosity E ) Turbulence - Isotropic F ) Turbulence - Anisotropic ( Rsm ) G ) Turbulence - Unsteady ( Les / Sas / Des ) H ) Turbulence - Laminar / Turbulent Transition I ) Flow Pathlines ( Massless ) J ) Acoustics ( Source Export ) K ) Acoustics ( Noise Prediction ) Heat Transfer A ) Natural Convection B ) Conduction & Conjugate Heat Transfer C ) Shell Conduction ( Including Multi-Layer Model ) D ) Internal Radiation - Participating Media E ) Internal Radiation - Transparent Media F ) External Radiation G ) Solar Radiation & Load H ) Simplified Heat Exchanger Model I ) Non-Equilibrium Thermal Model J ) Porous Media Particles Flows ( Multiphase ) A ) Coupled Discrete Phase Modeling Including Thin Wall Films B ) Macroscopic Particle Model C ) Inert Particle Tracking ( With Mass ) D ) Liquid Droplet ( Incl. Evaporation ) E ) Combusting Particles F ) Multicomponent Droplets G ) Discrete Element Model ( Dem ) H ) Break-Up And Coalescence I ) Erosion Free Surface Flows ( Multiphase ) A ) Implicit Vof B ) Explicit Vof C ) Coupled Level Set / Vof D ) Complex Multiphase Regime Transitions E ) Vof To Dpm Model F ) Dpm To Vof Model G ) Open Channel Flow And Wave H ) Surface Tension I ) Phase Change J ) Cavitation K ) Cavitation Where Multiple Fluids And Non-Condensing Gases Are Present Dispersed Multiphase Flows ( Multiphase ) A ) Mixture Fraction B ) Eulerian Model Including Thin Wall Films C ) Boiling Model D ) Surface Tension E ) Phase Change F ) Drag And Lift G ) Wall Lubrication H ) Heat And Mass Transfer I ) Population Balance J ) Reactions Between Phases K ) Granular Model For Dense Bed Of Solids L ) Dense Particulate Coupling ( Ddpm ) Reacting Flows A ) Species Transport B ) Non-Premixed Combustion C ) Premixed Combustion D ) Partially Premixed Combustion E ) Composition Pdf Transport F ) Finite Rate Chemistry G ) Pollutants And Soot Modeling H ) Sparse Chemistry Solver With Dynamic Cell Clustering And Dynamic Adaptive Chemistry I ) Ability To Use Model Fuel Library Mechanisms J ) Flame-Speed From Fuel-Component Library K ) Dpik Spark-Ignition Model L ) Flame-Propagation Using Level-Set Method ( G-Equation ) M ) Internal Combustion Engine Specific Solution N ) 0-D / 1-D / 2-D Reactor Models And Reactor Networks O ) Plasma Reactions P ) Comprehensive Surface-Kinetics Q ) Chemical And Phase Equilibrium R ) Flamelet Table Generation S ) Flame Speed And Ignition Table Generation T ) Reaction Sensitivity, Uncertainty And Path Analysis U ) Surrogate Blend Optimizer V ) Mechanism Reduction W ) Detailed Electrochemistry Model For Li-Ion Batteries Turbomachinery A ) Mrf / Frozen-Rotor B ) Sliding-Mesh / Stage C ) Transient Blade Row D ) Pitch Change E ) Time Transformation F ) Fourier Transformation G ) Harmonic Analysis H ) Blade Flutter Analysis I ) Performance Maps In-Flight Icing A ) Simulation Of Standard Droplets, Sld, And Ice Crystals B ) Inclusion Of Vapor / Humidity Effects On Icing C ) Icing Environments Of Appendices C, O ( Sld ) , And D ( Ice Crystals ) D ) Various Pre-Defined Droplet Size Distributions E ) Simulation Of Rime, Glaze, And Mixed Icing F ) Single-And Multi-Shot Icing Simulations With Mesh Deformation For Prediction Of Ice Accretion And Aerodynamic Performance Degradation G ) Single-And Multi-Shot Icing Simulations With Automatic Re-Meshing For Prediction Of Ice Accretion And Aerodynamic Performance Degradation H ) Conjugate Heat Transfer ( Cht ) For Anti-And De-Icing Simulations I ) Icing Of Rotating Components Of All Types: Rotors, Propellers, And Engines ( Fan, Guide Vanes, And Any Number Of Compressor Rows ) J ) Ice Cracking K ) Ice Shedding Optimization A ) Parameters B ) Design Point Studies C ) Correlation Analysis D ) Design Of Experiments E ) Sensitivity Analysis F ) Goal Driven Optimization G ) Six Sigma Analysis H ) Adjoint Solver For Shape Optimization I ) Adjoint Solver For Rotating Reference Frames & Conjugate Heat Transfer J ) Multi-Objective-Constrained Optimization K ) Mesh Morphing ( Rbf Morph ) High Rheology Material A ) Viscoelasticity B ) Specialty Extrusion Models C ) Specialty Blow Molding Models D ) Specialty Fiber Spinning Models Pre And Post Processing A ) Compare Multiple Runs, Datasets, Physics, Graphs In A Single Window B ) Simulation Reports C ) Advanced Data Interpolation Between Dissimilar Meshes D ) Advanced, Automated Data Exchange Multiphysics A ) Drag-N-Drop Multiphysics B ) Direct Coupling Between Physics C ) Collaborative Workflows D ) Fully Managed Co-Simulation E ) Flexible Solver Coupling Options F ) Functional Mock Up Unit ( Fmu ) Coupling G ) Force Induced Motion / Deformation H ) Fluid Thermal Deformation Fluid-Structure Interaction A ) Convection Cooled Electronics B ) Conduction Cooled Electronics C ) Intrinsic Fsi D ) Thermo-Elasticity Electro-Thermal Interaction A ) High Frequency Thermal Management B ) Electromechanical Thermal Management C ) Aero-Vibro Acoustics D ) Acoustics-Structural Other Coupled Interactions A ) Fluid Magnetohydrodynamics B ) Support Act Simulation Apps C ) Mosaic-Enabled Meshing Technology D ) Task-Based Workflow -Watertight Geometries E ) Task-Based Workflow -Fault Tolerant Geometries F ) Directly Enter Expressions G ) Parallel Solving With Ansys Cloud Launched From Desktop H ) Parallel Solving With Ansys Cloud Launched From Vdi 3. Additive Manufacturing Model Preparation A ) Define Build Envelope B ) Multiple Parts C ) Optimize Part Orientation Based Upon Distortion Tendency, Build Time, & Supports D ) Support Region Detection And Manual Modification E ) Create Multiple Support Types In One Region F ) Control Of Support Parameters G ) Multiple Support Types H ) Angled Supports I ) Perforations, Tooth Patterns, Intrusion, Sizing And Distribution Of Support Walls J ) Automatic Support Generation K ) Export Of Stl And Cad Tool Files L ) Export Of Additive Manufacturing Equipment ( Oem ) Build Files M ) Cost Estimation N ) Layer / Scan Vector Visualization Topology And Lattice Optimization A ) Structural Optimization B ) Modal Optimization C ) Thermal Loads D ) Inertial Loads E ) Optimized Design Validation F ) Manufacturing Constraints G ) Stress Constraints H ) Symmetry I ) Lattice Optimization J ) Overhang / Additive Constraints Workbench Additive A ) User-Defined Step Option As 1St Or Last Sequence Step B ) Layered Tetrahedral Meshing C ) Post Build Heat Treatment D ) Import Of Stl Supports E ) Inherent Strain Isotropic And Anisotropic Released F ) Strain Scaling Factor For Thermal And Structural Analyses G ) Stl Files Can Be Exported From Stl Supports H ) Voxel Mesh Generation I ) Wizards To Transfer Results From Additive Print To Workbench Additive J ) Calibration Setup In Am Wizard K ) Am Bond Implementation L ) Layer End Temperature Output M ) Process Simulation For Directed Energy Deposition N ) Direct Energy Deposition - Wizard O ) Direct Energy Deposition - G-Code Clustering P ) Direct Energy Deposition - Manual Clustering Additive Process Simulation A ) Nonlinear And Temperature Dependent Material Properties B ) Uniform Assumed Isotropic Strain C ) Scan Pattern Based Anisotropic Strain D ) Thermal Ratcheting Based Anisotropic Strain E ) Stress-Based Automatically Generated Supports F ) Part Distortion & Residual Stress ( As-Built ) G ) Directional Part And Support Removal H ) Part Distortion And Residual Stress After Baseplate Cut-Offand / Or Support Removal I ) Distortion Compensation J ) Recoater Interference Detection K ) Identification Of High Strain ( Crack ) Locations L ) Input Strain Hardening Factor M ) Import Of Stl Supports N ) Subvoxel Material Density Assignment O ) Layer By Layer Stress, Distortion & Blade Crash Visualizations P ) Build File Readers For Multiple Am Machines Q ) Auto Queue Multiple Successive Simulations R ) Additive Print To Workbench Additive Transfer For Post Processing Additive Morphology A ) Meltpool Dimensions B ) Thermal History C ) % Lack Of Fusion Porosity D ) Ability For Add User-Defined Materials Microstructure Prediction

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Name of Work: < ANSYSACADEMIC RESEARCH MACH AND CFD SOFTWARE >

Sl. No.	Item Description
1	Electrical Items :
2	ANSYS Academic-Research Mech and CFD Software Tool (one Task) Technical Specifications The software tool shall contain the following features 1. Finite Element Analysis (FEA) The Structural / Mechanical Finite Element Analysis Software Tool shall comply with following specifications. Design Tool for Analysis General Capabilities of pre-processing tools: The preprocessors (geometry modeling tool and the mesh generator) should have the following capabilities a) Direct Modelling Technology b) Open Data from All Major CAD Systems c) Feature Based Modelling Technology d) Export Data to Neutral File Formats e) Modify Imported Geometry f) Defeaturing and Simplification Tools g) Model Repair h) Add Parameters for Design Exploration i) Extract Mid-Surfaces/Shells and Beams j) Extract Volumes & Create Inner Fluid Domains k) Extract Outer Air Enclosures l) Shared Topology for Conformal Meshing m) Booleans and Slicing n) Create Weld Bodies o) Boundary Condition Mapping p) Scripting q) Sketching and Editing Tools r) 3D Comparison Tools s) Repair and Edit Faceted Data t) Reverse Engineering Faceted Data Meshing Capabilities a) Physics and Solver based setting: Mechanical, CFD, Implicit, Explicit, electromagnetics. b) Advanced sizing function c) Smoothening d) Element size e) Assembly mesh f) Advanced Settings: Parallel meshing, Shape checking, Element mid-side node, Rigid body behavior g) Defeaturing: Pinch tolerance, Automatic mesh based Defeaturing, Statistics Local Mesh Control a) Sizing: Contact sizing, Mapped face meshing, Refinement, Match control, Pinch, Inflation, Object Generator b) Meshing Methods: Tetrahedral, Hex, Sweep, Multizone c) Mesh Solution Features: Selective meshing, Section Planes, Virtual Topology Mosaic Mesh Technology a) Creating a volume mesh from an imported surface mesh b) Creating a volume mesh from imported CAD geometry c) Improving mesh quality with Auto Node Move d) Optimal settings for transferring geometry from CAD tool e) Converting hexahedral mesh to unstructured polyhedral mesh f) Mastery of sizing functions g) Wrapping single parts h) Wrapping dirty, complex assemblies Finite Element Modeling and Solver deck creation. Geometric Idealization a) Spring b) Mass c) Damper d) Spar e) Beam f) Cable g) Pipe/Elbow h) Shell - Thin i) Layered Shell - Thin (Composite) j) Shell - Thick (Solid Shell) k) Layered Shell - Thick (Solid Shell) (Composite) l) 2D Plane / Axisymmetric m) 3D Solids n) Layered 3D Solids (Composite) o) Infinite Domain p) 2.5D Elements q) Reinforcement Elements r) Coupled Field ROM Element Technology s) Iso-Geometric Analysis (IGA) Modeling Capabilities a) Contact - Linear b) Contact - Nonlinear c) Joints d) Seam Welds e) Spot Welds f) Element Birth and Death g) Gasket Elements h) Rezoning and Adaptive Remeshing i) Inverse Analysis Materials a) Basic Linear Materials (Linear, Anisotropic, Temperature Dependent) b) Basic Nonlinear Materials (Hyperelastic, Plasticity, Rate Independent, Isotropic, Concrete, Viscoelasticity) c) Advanced Nonlinear Materials (Rate dependent, Anisotropic, Damage Models, Geomechanics Materials, Multiphysics, Acoustics) d) Field Dependent e) User Defined Materials f) Fracture Mechanics and Crack Growth g) Materials Multiscale Homogenization Composite Materials a) Material Definitions b) Ply Definitions c) Interface Layers d) Advanced Ply Modeling Features e) Variable Material Data f) Solid Extrusion g) Lay-Up Mapping h) Draping i) Lay-Up Exchange Interfaces j) Advanced Failure Criteria Library k) First-Ply Failure l) Last-Ply failure m) Delamination n) Sandwich Modeling o) Automation / Run Scripts p) Short Fiber Composites Structural Solver Capabilities a) Linear Static b) Nonlinear Static c) Pre-Stress Effects, Linear Perturbation d) Nonlinear Geometry e) Buckling - Linear Eigenvalue f) Buckling - Nonlinear Post Buckling Behavior g) Buckling - Nonlinear Post Buckling Behavior - Arc Length h) Steady State Analysis Applied to a Transient Condition i) Advanced Wave Loading Multi Analysis a) Submodeling b) Data Mapping c) Multiphysics Data Mapping d) Initial State e) Advanced Multi-Stage 2-D to 3-D Analysis Vibrations a) Modal b) Modal - Pre-Stressed c) Modal - Damped/Unsymmetric d) Transient - Mode-Superposition e) Harmonic - Mode-Superposition f) Harmonic - Full g) Spectrum h) Random Vibration i) Mistuning j) Rotordynamics k) Multi-Stage Cyclic Symmetry Nonlinear Transient Dynamics a) Rigid Body Mechanisms b) Rigid Body Dynamics with CMS L Components for Flexible Bodies c) Full Transient d) CMS with Substructuring e) Mixed Rigid - Flexible Systems Explicit Dynamics a) FE (Lagrange) Solver b) Euler Solvers c) Implicit-Explicit Material States d) Mass Scaling e) Natural Fragmentation f) Erosion Based on Multiple Criteria g) De-Zoning h) Part Activation and Deactivation (Multi Stage Analysis) i) Explicit Time Integration Durability a) Stress-Life (SN) b) Strain-Life (EN) c) Safety Factor d) Vibration Fatigue Wave Hydrodynamics a) Diffraction and Radiation b) Frequency & Time Domain Motions Analysis c) Moorings, Joints & Tethers d) Load Transfer to Structural Analysis e) Internal Tanks Thermal a) Steady State Thermal b) Transient Thermal c) Conduction d) Convection e) Radiation to Space f) Radiation - Surface to Surface g) Phase Change h) Thermal Analysis of Layered Shells and Solids Additional Physics a) 1-D Thermal-Flow b) 1-D Coupled-Field Circuits c) 1-D Electromechanical Transducer d) MEMS ROM e) Piezoelectric f) Piezoresistive g) Electromagnetic h) Electro-Migration i) Diffusion-Pore-Fluid j) Structural-Thermal-Electric-Magnetic k) 1-Way Fluid-Structure Interaction l) 2-Way Fluid-Structure Interaction m) Multi-scale Modeling n) Implicit Time Integration Optimization a) DesignXplorer included b) Parameters c) Design Point Studies d) Correlation Analysis e) Design of Experiments f) Sensitivity Analysis g) Goal Driven Optimization h) Six Sigma Analysis Miscellaneous And Usability a) Ansys SpaceClaim b) Ansys Customization Suite (ACS) c) Support ACT Extensions d) Journaling and Scripting e) Command Snippet Support f) Batch run capability g) Read/Write 3rd Party Matrix CAE Data h) CDB and 3rd party FE Model Import i) Nastran Bulk file export j) Global/Selective Mass Scaling k) Keyword Input l) Splitting of Input File into Subfiles m) User Subroutines n) Re-mapping o) Transmitting Boundaries p) Dynamic Storage Allocation q) Extensive Output Data Controls (ascii/binary) r) Interactive Real-Time Graphics s) Double Precision 2. Computational Fluid Dynamics (CFD) The Computational Fluid Dynamics (CFD) software tool will comply to following specifications. General Solver Capabilities a) Comprehensive Inlet and Outlet Conditions b) Steady-State Flow c) Transient Flow d) 2-D and 3-D Flow e) Time Dependent Boundary Conditions f) Customizable Materials Library g) Granta Materials Data for Simulation h) Fan Model j) Periodic Domains k) Flow-Driven Solid Motion (6DOF) l) Pressure-Based Coupled Solver m) Density-Based Coupled Solver n) Dynamic/Moving-Deforming Mesh o) Overset Mesh p) Immersed-Solid/MST Method for Moving Parts q) Automatic On-the-Fly Mesh Generation with Dynamic Refinement r) Dynamic Solution-Adaptive Mesh Refinement s) Polyhedral Unstructured Solution-Adaptive Mesh Refinement Single Phase, Non-Reacting Flows a) Incompressible Flow b) Compressible Flow c) Porous Media d) Non-Newtonian Viscosity e) Turbulence - Isotropic f) Turbulence - Anisotropic (RSM) g) Turbulence - Unsteady (LES/SAS/DES) h) Turbulence - Laminar/Turbulent Transition i) Flow Pathlines (Massless) j) Acoustics (Source Export) k) Acoustics (Noise Prediction) Heat Transfer a) Natural Convection b) Conduction & Conjugate Heat Transfer c) Shell Conduction (Including Multi-Layer Model) d) Internal Radiation - Participating Media e) Internal Radiation - Transparent Media f) External Radiation g) Solar Radiation & Load h) Simplified Heat Exchanger Model i) Non-Equilibrium Thermal Model j) Porous Media Particles Flows (Multiphase) a) Coupled Discrete Phase Modeling including Thin Wall Films b) Macroscopic Particle Model c) Inert Particle Tracking (With Mass) d) Liquid Droplet (Incl. Evaporation) e) Combusting Particles f) Multicomponent Droplets g) Discrete Element Model (DEM) h) Break-Up And Coalescence i) Erosion Free Surface Flows (Multiphase) a) Implicit VOF b) Explicit VOF c) Coupled Level Set/VOF d) Complex Multiphase Regime Transitions e) VOF to DPM Model f) DPM to VOF Model g) Open Channel Flow and Wave h) Surface Tension i) Phase Change j) Cavitation k) Cavitation Where Multiple Fluids and Non-Condensing Gases are Present Dispersed Multiphase Flows (Multiphase) a) Mixture Fraction b) Eulerian Model including Thin Wall Films c) Boiling Model d) Surface Tension e) Phase Change f) Drag and Lift g) Wall Lubrication h) Heat and Mass Transfer i) Population Balance j) Reactions Between Phases k) Granular Model for Dense Bed of Solids l) Dense Particulate Coupling (DDPM) Reacting Flows a) Species Transport b) Non-Premixed Combustion c) Premixed Combustion d) Partially Premixed Combustion e) Composition PDF Transport f) Finite Rate Chemistry g) Pollutants and Soot Modeling h) Sparse Chemistry Solver with Dynamic Cell Clustering and Dynamic Adaptive Chemistry i) Ability to Use Model Fuel Library Mechanisms j) Flame-speed from Fuel-Component Library k) DPIK Spark-Ignition Model l) Flame-Propagation Using Level-Set Method (G-Equation) m) Internal Combustion Engine Specific Solution n) 0-D/1-D/2-D Reactor Models and Reactor Networks o) Plasma Reactions p) Comprehensive Surface-Kinetics q) Chemical and Phase Equilibrium r) Flamelet table generation s) Flame speed and Ignition Table Generation t) Reaction Sensitivity, Uncertainty and Path Analysis u) Surrogate Blend Optimizer v) Mechanism Reduction w) Detailed Electrochemistry Model for Li-Ion Batteries Turbomachinery a) MRF/Frozen-Rotor b) Sliding-Mesh/Stage c) Transient Blade Row d) Pitch Change e) Time Transformation f) Fourier Transformation g) Harmonic Analysis h) Blade Flutter Analysis i) Performance Maps In-Flight Icing a) Simulation of Standard Droplets, SLD, and Ice Crystals b) Inclusion of Vapor / Humidity Effects on Icing c) Icing Environments of Appendices C, O (SLD), and D (Ice Crystals) d) Various Pre-Defined Droplet Size Distributions e) Simulation of Rime, Glaze, and Mixed Icing f) Single-and Multi-Shot Icing Simulations with Mesh Deformation for Prediction of Ice Accretion and Aerodynamic Performance Degradation g) Single-and Multi-Shot Icing Simulations with Automatic Re-Meshing for Prediction of Ice Accretion and Aerodynamic Performance Degradation h) Conjugate Heat Transfer (CHT) for Anti-and De-Icing Simulations i) Icing of Rotating Components of All Types: Rotors, Propellers, and Engines (Fan, Guide Vanes, and Any Number of Compressor Rows) j) Ice Cracking k) Ice Shedding Optimization a) Parameters b) Design Point Studies c) Correlation Analysis d) Design of Experiments e) Sensitivity Analysis f) Goal Driven Optimization g) Six Sigma Analysis h) Adjoint Solver for Shape Optimization i) Adjoint Solver for Rotating Reference Frames & Conjugate Heat Transfer j) Multi-Objective-Constrained Optimization k) Mesh Morphing (RBF Morph) High Rheology Material a) Viscoelasticity b) Specialty Extrusion Models c) Specialty Blow Molding Models d) Specialty Fiber Spinning Models Pre and Post Processing a) Compare Multiple Runs, Datasets, Physics, Graphs in a Single Window b) Simulation Reports c) Advanced Data Interpolation between Dissimilar Meshes d) Advanced, Automated Data Exchange Multiphysics a) Drag-n-Drop Multiphysics b) Direct Coupling Between Physics c) Collaborative Workflows d) Fully Managed Co-Simulation e) Flexible Solver Coupling Options f) Functional Mock Up Unit (FMU) Coupling g) Force Induced Motion/Deformation h) Fluid Thermal Deformation Fluid-Structure Interaction a) Convection Cooled Electronics b) Conduction Cooled Electronics c) Intrinsic FSI d) Thermo-elasticity Electro-Thermal Interaction a) High Frequency Thermal Management b) Electromechanical Thermal Management c) Aero-Vibro Acoustics d) Acoustics-Structural Other Coupled Interactions a) Fluid Magnetohydrodynamics b) Support ACT Simulation Apps c) Mosaic-Enabled Meshing Technology d) Task-Based Workflow -Watertight Geometries e) Task-Based Workflow -Fault Tolerant Geometries f) Directly Enter Expressions g) Parallel Solving with Ansys Cloud Launched from Desktop h) Parallel Solving with Ansys Cloud Launched from VDI 3. Additive Manufacturing Model Preparation a) Define Build Envelope b) Multiple Parts c) Optimize Part Orientation Based Upon Distortion Tendency, Build Time, & Supports d) Support Region Detection and Manual Modification e) Create Multiple Support Types in One Region f) Control of Support Parameters g) Multiple Support Types h) Angled Supports i) Perforations, Tooth Patterns, Intrusion, Sizing and Distribution of Support Walls j) Automatic Support Generation k) Export of STL and CAD tool files l) Export of Additive Manufacturing Equipment (OEM) Build Files m) Cost Estimation n) Layer/Scan Vector Visualization Topology and Lattice Optimization a) Structural Optimization b) Modal Optimization c) Thermal Loads d) Inertial Loads e) Optimized Design Validation f) Manufacturing Constraints g) Stress Constraints h) Symmetry i) Lattice Optimization j) Overhang / Additive Constraints Workbench Additive a) User-Defined Step Option as 1st or Last Sequence Step b) Layered Tetrahedral Meshing c) Post Build Heat Treatment d) Import of STL Supports e) Inherent Strain Isotropic and Anisotropic Released f) Strain Scaling Factor for Thermal and Structural Analyses g) STL Files can be Exported from STL Supports h) Voxel Mesh Generation i) Wizards to Transfer Results from Additive Print to Workbench Additive j) Calibration setup in AM Wizard k) AM Bond Implementation l) Layer End Temperature Output m) Process Simulation for Directed Energy Deposition n) Direct Energy Deposition - Wizard o) Direct Energy Deposition - G-Code Clustering p) Direct Energy Deposition - Manual Clustering Additive Process Simulation a) Nonlinear and Temperature Dependent Material Properties b) Uniform Assumed Isotropic Strain c) Scan Pattern Based Anisotropic Strain d) Thermal Ratcheting Based Anisotropic Strain e) Stress-Based Automatically Generated Supports f) Part Distortion & Residual Stress (As-Built) g) Directional Part and Support Removal h) Part Distortion and Residual Stress after Baseplate Cut-Offand/or Support Removal i) Distortion Compensation j) Recoater Interference Detection k) Identification of High Strain (Crack) Locations l) Input Strain Hardening Factor m) Import of STL Supports n) Subvoxel Material Density Assignment o) Layer by Layer Stress, Distortion & Blade Crash Visualizations p) Build File Readers for Multiple AM Machines q) Auto Queue Multiple Successive Simulations r) Additive Print to Workbench Additive Transfer for Post Processing Additive Morphology a) Meltpool Dimensions b) Thermal History c) % Lack of Fusion Porosity d) Ability for add User-Defined Materials Microstructure Prediction