COMSOL Multiphysics

COMSOL, Inc.
0.0
Total 0 review
Product overview
COMSOL Multiphysics is a powerful simulation software for modeling and solving all kinds of scientific and engineering problems. With its multiphysics capabilities, it allows users to simulate a wide range of phenomena - from heat transfer and fluid flow to electromagnetics and structural mechanics. The software is known for its user-friendly interface, flexible customization options, and its ability to handle complex and coupled physical phenomena
Operating Systems
Windows            Linux             macOS
Data Storage
 On-Premises Storage
Industry served

 Aerospace

 Automotive

 Construction Equipment

 Energy

 Process & Chemicals

 Marine & Offshore

 Turbomachinery

 Rail Industry

 Defence

Rail Industry


0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

0.0
Total 0 review

Simulation types

Steady-State CFD Analysis
0.0
Total 0 review
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
0.0
Total 0 review
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
0.0
Total 0 review
Transient CFD Analysis: Studies how fluid flow or thermal properties change over time, capturing dynamic effects
Compressible Flow Analysis
0.0
Total 0 review
Incompressible Flow Analysis: Assumes fluid density remains constant, typically used for low-speed fluid flows
Incompressible Flow Analysis
0.0
Total 0 review
Incompressible Flow Analysis: Assumes fluid density remains constant, typically used for low-speed fluid flows
Non-Newtonian Fluids
0.0
Total 0 review
Non-Newtonian Fluids: Simulates fluids whose viscosity changes with the rate of shear strain, such as slurries and polymers
Cavitation Analysis
0.0
Total 0 review
Cavitation Analysis: Examines the formation of vapor cavities in a liquid, often occurring in pumps and propellers
Combustion Analysis
0.0
Total 0 review
Combustion Analysis: Studies the chemical reaction of burning and its effects on fluid flow and heat transfer
Conjugate Heat Transfer
0.0
Total 0 review
Conjugate Heat Transfer: Simulates the combined modes of heat transfer (conduction, convection, and radiation) in solids and fluids
Free Surface Flow Analysis
0.0
Total 0 review
Free Surface Flow Analysis: Deals with flows having a free surface interface between two fluids, like water and air
Heat Transfer Analysis
0.0
Total 0 review
Heat Transfer Analysis: Involves conduction, convection, and radiation studies in fluids and solids
Design of Experiments
0.0
Total 0 review
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)
0.0
Total 0 review
Particle and Droplet Tracking (Lagrangian Modeling): Simulates the movement of particles or droplets within a fluid flow
Electromagnetic Analysis (Magnetohydrodynamics
0.0
Total 0 review
Electromagnetic Analysis (Magnetohydrodynamics, Plasma): Studies the interaction between magnetic fields and conducting fluids
Plasma)
0.0
Total 0 review
Electromagnetic Analysis (Magnetohydrodynamics, Plasma): Studies the interaction between magnetic fields and conducting fluids
Multiphysics with Structure (Fluid-Structure Interaction)
0.0
Total 0 review
Multiphysics with Structure (Fluid-Structure Interaction): Analyzes the interaction between fluid flow and structural elements
Acoustic Analysis (Aeroacoustics)
0.0
Total 0 review
Acoustic Analysis (Aeroacoustics): Examines noise generated by turbulent fluid flow
Multiphase Flow Simulation.
0.0
Total 0 review

Turbulance Models

RANS Model
0.0
Total 0 review
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)
0.0
Total 0 review
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)
0.0
Total 0 review
DES (Detached Eddy Simulation): A hybrid approach combining RANS and LES, used for flows with regions of separation and recirculation
SAS (Scale-Adaptive Simulation).
0.0
Total 0 review

Meshing Capabilities

Automatic Mesh Generation
0.0
Total 0 review
Automatic Mesh Generation: Automatically creates a mesh based on the geometry and flow conditions
Local Region Meshing
0.0
Total 0 review
Local Region Meshing: Allows finer meshing in regions of interest for better accuracy
Boundary Layer Meshing
0.0
Total 0 review
Boundary Layer Meshing: Creates fine mesh layers near solid boundaries to capture boundary layer effects
Mesh Convergence Analysis
0.0
Total 0 review
Mesh Convergence Analysis: Determines the optimal mesh size for accuracy by comparing results from different mesh densities
Unstructured Meshing
0.0
Total 0 review
Unstructured Meshing: Uses tetrahedrons, hexahedrons, etc., for complex geometries
Adaptive Meshing
0.0
Total 0 review
Adaptive Meshing: Refines the mesh during the simulation based on solution gradients
Hybrid Meshing (Combination of Grid Types)
0.0
Total 0 review
Overset Grids (Chimera Grids)
0.0
Total 0 review
Overset Grids (Chimera Grids): Allows overlapping meshes, useful for moving objects
Structured Grids (Rectangular
0.0
Total 0 review
Cartesian)
0.0
Total 0 review
Moving Mesh and Deforming Mesh Capabilities.
0.0
Total 0 review

Solver Capabilities

Speed and Efficiency
0.0
Total 0 review
Speed and Efficiency: Focuses on solving simulations quickly and efficiently
Parallel Processing
0.0
Total 0 review
Parallel Processing: Utilizes multiple processors or cores to speed up computations
Solver Customization
0.0
Total 0 review
Solver Customization: Allows users to customize or script the solver for specific needs
Native Multi-GPU Solver
0.0
Total 0 review
Native Multi-GPU Solver: Leverages multiple Graphics Processing Units (GPUs) for faster processing
Implicit Solver
0.0
Total 0 review
Implicit Solver: Handles equations as a coupled system for stability in steady-state and transient simulations
Explicit Solver.
0.0
Total 0 review
No record