ANSYS Ensight

ANSYS, Inc.
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Product overview
ANSYS EnSight is a powerful post-processing tool for visualizing, analyzing, and communicating simulation data from CFD and other computational analyses. It supports a wide range of data formats and offers high-quality visuals. It is the industry leader for all physics (CFD, FEA, MBD, DEM, CAE, etc…) data visualization and is consistently leveraged by its users.EnSight is used in automotive, aerospace, defense, and energy sectors to understand complex fluid dynamics, structural, and thermal phenomena.
Operating Systems
Windows             Linux
Data Storage
 On-Premises Storage             Cloud Storage with ANSYS Cloud Direct
Industry served

 Aerospace

 Automotive

 Construction Equipment

 Energy

 Process & Chemicals

 Marine & Offshore

 Turbomachinery

 Rail Industry

 Defence

Rail Industry


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Simulation types

Steady-State CFD Analysis
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Steady-State CFD Analysis: Analyzes fluid flow or heat transfer over time until it reaches a steady condition where variables do not change
Turbulent Flow Simulation
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Turbulent Flow Simulation: Involves the numerical analysis of fluid flows with chaotic and irregular fluctuations, aiming to predict the complex interactions within turbulent flows
Transient CFD Analysis
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Transient CFD Analysis: Studies how fluid flow or thermal properties change over time, capturing dynamic effects
Compressible Flow Analysis
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Incompressible Flow Analysis: Assumes fluid density remains constant, typically used for low-speed fluid flows
Incompressible Flow Analysis
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Incompressible Flow Analysis: Assumes fluid density remains constant, typically used for low-speed fluid flows
Non-Newtonian Fluids
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Non-Newtonian Fluids: Simulates fluids whose viscosity changes with the rate of shear strain, such as slurries and polymers
Cavitation Analysis
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Cavitation Analysis: Examines the formation of vapor cavities in a liquid, often occurring in pumps and propellers
Combustion Analysis
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Combustion Analysis: Studies the chemical reaction of burning and its effects on fluid flow and heat transfer
Conjugate Heat Transfer
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Conjugate Heat Transfer: Simulates the combined modes of heat transfer (conduction, convection, and radiation) in solids and fluids
Free Surface Flow Analysis
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Free Surface Flow Analysis: Deals with flows having a free surface interface between two fluids, like water and air
Heat Transfer Analysis
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Heat Transfer Analysis: Involves conduction, convection, and radiation studies in fluids and solids
Design of Experiments
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Design of Experiments (DoE): A systematic method to determine the relationship between factors affecting a process and the output of that process
Particle and Droplet Tracking (Lagrangian Modeling)
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Particle and Droplet Tracking (Lagrangian Modeling): Simulates the movement of particles or droplets within a fluid flow
Electromagnetic Analysis (Magnetohydrodynamics
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Electromagnetic Analysis (Magnetohydrodynamics, Plasma): Studies the interaction between magnetic fields and conducting fluids
Plasma)
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Electromagnetic Analysis (Magnetohydrodynamics, Plasma): Studies the interaction between magnetic fields and conducting fluids
Multiphysics with Structure (Fluid-Structure Interaction)
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Multiphysics with Structure (Fluid-Structure Interaction): Analyzes the interaction between fluid flow and structural elements
Acoustic Analysis (Aeroacoustics)
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Acoustic Analysis (Aeroacoustics): Examines noise generated by turbulent fluid flow
Multiphase Flow Simulation.
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Turbulance Models

RANS Model
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RANS Model (Reynolds-Averaged Navier-Stokes): Simplifies turbulence by averaging the effects over time, suitable for steady-state or slowly varying flows
LES (Large Eddy Simulation)
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LES (Large Eddy Simulation): Resolves large-scale turbulent flow structures directly and models smaller scales, offering high fidelity at a higher computational cost
DES (Detached Eddy Simulation)
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DES (Detached Eddy Simulation): A hybrid approach combining RANS and LES, used for flows with regions of separation and recirculation
SAS (Scale-Adaptive Simulation).
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Meshing Capabilities

Automatic Mesh Generation
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Automatic Mesh Generation: Automatically creates a mesh based on the geometry and flow conditions
Local Region Meshing
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Local Region Meshing: Allows finer meshing in regions of interest for better accuracy
Boundary Layer Meshing
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Boundary Layer Meshing: Creates fine mesh layers near solid boundaries to capture boundary layer effects
Mesh Convergence Analysis
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Mesh Convergence Analysis: Determines the optimal mesh size for accuracy by comparing results from different mesh densities
Unstructured Meshing
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Unstructured Meshing: Uses tetrahedrons, hexahedrons, etc., for complex geometries
Adaptive Meshing
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Adaptive Meshing: Refines the mesh during the simulation based on solution gradients
Hybrid Meshing (Combination of Grid Types)
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Overset Grids (Chimera Grids)
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Overset Grids (Chimera Grids): Allows overlapping meshes, useful for moving objects
Structured Grids (Rectangular
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Cartesian)
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Moving Mesh and Deforming Mesh Capabilities.
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Solver Capabilities

Speed and Efficiency
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Speed and Efficiency: Focuses on solving simulations quickly and efficiently
Parallel Processing
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Parallel Processing: Utilizes multiple processors or cores to speed up computations
Solver Customization
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Solver Customization: Allows users to customize or script the solver for specific needs
Native Multi-GPU Solver
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Native Multi-GPU Solver: Leverages multiple Graphics Processing Units (GPUs) for faster processing
Implicit Solver
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Implicit Solver: Handles equations as a coupled system for stability in steady-state and transient simulations
Explicit Solver.
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