Specification Chart

Fluid Flow Expand/Collapse all	COMSOL Multiphysics^®	Acoustics Module	Battery Design Module	CFD Module	Chemical Reaction Engineering Module	Composite Materials Module	Corrosion Module	Electrochemistry Module	Electrodeposition Module	Fuel Cell & Electrolyzer Module	Heat Transfer Module	Liquid & Gas Properties Module	MEMS Module	Microfluidics Module	Mixer Module	Molecular Flow Module	Multibody Dynamics Module	Particle Tracing Module	Pipe Flow Module	Plasma Module	Polymer Flow Module	Porous Media Flow Module	Ray Optics Module	Structural Mechanics Module	Subsurface Flow Module

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Physics Interfaces and Study Types

High Mach Number Flow

Compressible Euler Equations

Laminar Flow

Rotating Machinery, k-epsilon

Rotating Machinery, Laminar Flow

Rotating Machinery, Spalart-Allmaras

Turbulent Flow, Algebraic yPlus

Turbulent Flow, k-epsilon

Turbulent Flow, k-omega

Turbulent Flow, L-VEL

Turbulent Flow, Low-Reynolds k-epsilon

Turbulent Flow, Realizable k-epsilon

Turbulent Flow, Spalart-Allmaras

Turbulent Flow, SST

Turbulent Flow, v2-f

Multiphase Flow

Bubbly Flow, Algebraic yPlus

Bubbly Flow, k-epsilon

Bubbly Flow, k-omega

Bubbly Flow, L-VEL

Bubbly Flow, Laminar Flow

Bubbly Flow, Low-Reynolds k-epsilon

Bubbly Flow, Realizable k-epsilon

Bubbly Flow, Spalart-Allmaras

Bubbly Flow, SST

Bubbly Flow, v2-f

Euler-Euler Model, Laminar Flow

Euler-Euler Model, Turbulent Flow

Laminar Two-Phase Flow, Moving Mesh

Mixture Model, Algebraic yPlus

Mixture Model, k-epsilon

Mixture Model, k-omega

Mixture Model, L-VEL

Mixture Model, Laminar Flow

Mixture Model, Low-Reynolds k-epsilon

Mixture Model, Realizable k-epsilon

Mixture Model, Spalart-Allmaras

Mixture Model, SST

Mixture Model, v2-f

Nonisothermal Mixture Model, Algebraic yPlus

Nonisothermal Mixture Model, k-epsilon

Nonisothermal Mixture Model, k-omega

Nonisothermal Mixture Model, L-VEL

Nonisothermal Mixture Model, Laminar Flow

Nonisothermal Mixture Model, Low-Reynolds k-epsilon

Nonisothermal Mixture Model, Realizable k-epsilon

Nonisothermal Mixture Model, Spalart-Allmaras

Nonisothermal Mixture Model, SST

Nonisothermal Mixture Model, v2-f

Phase Transport

Phase Transport, Mixture Model, Algebraic yPlus

Phase Transport, Mixture Model, k-epsilon

Phase Transport, Mixture Model, k-omega

Phase Transport, Mixture Model, L-VEL

Phase Transport, Mixture Model, Laminar Flow

Phase Transport, Mixture Model, Low-Reynolds k-epsilon

Phase Transport, Mixture Model, Realizable k-epsilon

Phase Transport, Mixture Model, Spalart-Allmaras

Phase Transport, Mixture Model, SST

Phase Transport, Mixture Model, v2-f

Rotating Machinery, Level Set, Algebraic yPlus

Rotating Machinery, Level Set, k-epsilon

Rotating Machinery, Level Set, k-omega

Rotating Machinery, Level Set, L-VEL

Rotating Machinery, Level Set, Laminar Flow

Rotating Machinery, Level Set, Low-Reynolds k-epsilon

Rotating Machinery, Level Set, Realizable k-epsilon

Rotating Machinery, Level Set, Spalart-Allmaras

Rotating Machinery, Level Set, SST

Rotating Machinery, Level Set, v2-f

Rotating Machinery, Mixture Model, Algebraic yPlus

Rotating Machinery, Mixture Model, k-epsilon

Rotating Machinery, Mixture Model, k-omega

Rotating Machinery, Mixture Model, L-VEL

Rotating Machinery, Mixture Model, Laminar Flow

Rotating Machinery, Mixture Model, Low-Reynolds k-epsilon

Rotating Machinery, Mixture Model, Realizable k-epsilon

Rotating Machinery, Mixture Model, Spalart-Allmaras

Rotating Machinery, Mixture Model, SST

Rotating Machinery, Mixture Model, v2-f

Rotating Machinery, Phase Field, Algebraic yPlus

Rotating Machinery, Phase Field, k-epsilon

Rotating Machinery, Phase Field, k-omega

Rotating Machinery, Phase Field, L-VEL

Rotating Machinery, Phase Field, Laminar Flow

Rotating Machinery, Phase Field, Low-Reynolds k-epsilon

Rotating Machinery, Phase Field, Realizable k-epsilon

Rotating Machinery, Phase Field, Spalart-Allmaras

Rotating Machinery, Phase Field, SST

Rotating Machinery, Phase Field, v2-f

Rotating Machinery, Phase Transport Mixture Model, Algebraic yPlus

Rotating Machinery, Phase Transport Mixture Model, k-epsilon

Rotating Machinery, Phase Transport Mixture Model, k-omega

Rotating Machinery, Phase Transport Mixture Model, L-VEL

Rotating Machinery, Phase Transport Mixture Model, Laminar Flow

Rotating Machinery, Phase Transport Mixture Model, Low-Reynolds k-epsilon

Rotating Machinery, Phase Transport Mixture Model, Realizable k-epsilon

Rotating Machinery, Phase Transport Mixture Model, Spalart-Allmaras

Rotating Machinery, Phase Transport Mixture Model, SST

Rotating Machinery, Phase Transport Mixture Model, v2-f

Three-Phase Flow, Phase Field, Laminar

Two-Phase Flow, Level Set, Algebraic yPlus

Two-Phase Flow, Level Set, Brinkman Equations

Two-Phase Flow, Level Set, k-epsilon

Two-Phase Flow, Level Set, k-omega

Two-Phase Flow, Level Set, L-VEL

Two-Phase Flow, Level Set, Laminar Flow

Two-Phase Flow, Level Set, Low-Reynolds k-epsilon

Two-Phase Flow, Level Set, Realizable k-epsilon

Two-Phase Flow, Level Set, Spalart-Allmaras

Two-Phase Flow, Level Set, SST

Two-Phase Flow, Level Set, v2-f

Two-Phase Flow, Phase Field, Algebraic yPlus

Two-Phase Flow, Phase Field, k-epsilon

Two-Phase Flow, Phase Field, k-omega

Two-Phase Flow, Phase Field, L-VEL

Two-Phase Flow, Phase Field, Laminar Flow

Two-Phase Flow, Phase Field, Low-Reynolds k-epsilon

Two-Phase Flow, Phase Field, Realizable k-epsilon

Two-Phase Flow, Phase Field, Spalart-Allmaras

Two-Phase Flow, Phase Field, SST

Two-Phase Flow, Phase Field, v2-f

Two-Phase Thin-Film Flow, Phase Field

Nonisothermal Flow

Brinkman Equations

Laminar Flow

LES RBVM

LES RBVMWV

LES Smagorinsky

Nonisothermal Pipe Flow

Rotating Machinery, Algebraic yPlus

Rotating Machinery, k-epsilon

Rotating Machinery, k-omega

Rotating Machinery, L-VEL

Rotating Machinery, Laminar Flow

Rotating Machinery, Low-Reynolds k-epsilon

Rotating Machinery, Realizable k-epsilon

Rotating Machinery, Spalart-Allmaras

Rotating Machinery, SST

Rotating Machinery, v2-f

Turbulent Flow, Algebraic yPlus

Turbulent Flow, k-epsilon

Turbulent Flow, k-omega

Turbulent Flow, L-VEL

Turbulent Flow, Low-Reynolds k-epsilon

Turbulent Flow, Realizable k-epsilon

Turbulent Flow, Spalart-Allmaras

Turbulent Flow, SST

Turbulent Flow. v2-f

Viscoelastic Flow

Particle Tracing for Fluid Flow

Porous Media and Subsurface Flow

Brinkman Equations

Darcy's Law

Fracture Flow

Free and Porous Media Flow, Brinkman

Free and Porous Media Flow, Darcy

Layered Darcy's Law

Multiphase Flow in Porous Media

Multiphase Free and Porous Media Flow

Phase Transport in Free and Porous Media Flow

Phase Transport in Porous Media

Richards Equation

Thin-Film and Porous Media Flow

Two-Phase Darcy's Law

Rarefied Flow

Molecular Flow

Slip Flow

Transitional Flow

Shallow Water Equations

Shallow Water Equations, Time Explicit

Single-Phase Flow

Compressible Potential Flow

Creeping Flow

DES RBVM, Spalart-Allmaras

DES RBVMWV, Spalart-Allmaras

DES Smagorinsky, Spalart-Allmaras

Incompressible Potential Flow

Laminar Flow

LES RBVM

LES RBVMWV

LES Smagorinsky

Pipe Flow

Rotating Machinery, Algebraic yPlus

Rotating Machinery, L-VEL

Rotating Machinery, Laminar Flow

Rotating Machinery, Turbulent Flow, k-epsilon

Rotating Machinery, Turbulent Flow, k-omega

Rotating Machinery, Turbulent Flow, low-Re k-epsilon

Rotating Machinery, Turbulent Flow, Realizable k-epsilon

Rotating Machinery, Turbulent Flow, Spalart-Allmaras

Rotating Machinery, Turbulent Flow, SST

Rotating Machinery, Turbulent Flow, v2-f

Turbulent Flow, Algebraic yPlus

Turbulent Flow, k-epsilon

Turbulent Flow, k-omega

Turbulent Flow, L-VEL

Turbulent Flow, Low-Reynolds k-epsilon

Turbulent Flow, Realizable k-epsilon

Turbulent Flow, Spalart-Allmaras

Turbulent Flow, SST

Turbulent Flow, v2-f

Viscoelastic Flow

Water Hammer

Thin-Film Flow

Thin-Film Flow Domain, 2D

Boundary Conditions

Atmosphere/Gauge

Boundary Stress

Diffuse Flux

Electrode-Electrolyte Interface Coupling

Evaporation

Fan

Fluid-Fluid Interface

Flux Discontinuity, Porous Media

Free Surface

Grille

Hydraulic Head, Porous Media

Inflow Boundary, Porous Media

Initial Interface, Two-Phase Flow

Interior Fan

Interior Wall, Porous Media

Marangoni effect (multiphysics coupling)

Mass Flux, Porous Media

Mixing Plane¹

No Flow, Porous Media

Number Density Reconstruction (Interior Boundaries Only)

Open Boundary, Normal Stress or No Viscous Stress

Periodic Flow Condition

Pervious Layer, Porous Media

Pipe Connection (multiphysics coupling)²

Plane Symmetry

Porous Interface

Pressure Head, Porous Media

Pressure, Porous Media

Reservoir

Screen

Stationary Free Surface

Surface Temperature

Symmetry Boundary Condition

Thin Barrier, Porous Media

Total Vacuum

Vacuum Pump

Vacuum Pump (Free Molecular Flow)

Inlet

Fully developed flow

Mass Flow Rate and Mass Flux

Standard Mass Flow Rate (SCCM)

Synthetic Turbulence for LES and DES

Turbulent Flow

Velocity, Pressure, Normal Stress

Outlet

Fully developed flow

Pressure, Velocity

Wall

Asymptotic Slip

Electroosmotic Velocity

External Slip Wall

Hatzikiriakos Slip

Interior Slip Wall

Interior Wetted Wall

Navier Slip

Nonlinear Navier Slip

Porous Slip

Rotating Shaft

Slip or No Slip, Sliding, Moving or Leaking Wall

Slip Velocity using Viscous Slip and Thermal Creep

Slip Wall

Wetted Wall and Moving Wetted Wall

Interior Wall

Interior Wetted Wall (multiphysics coupling)

Molecular Flow Wall Boundary Conditions

Turbulent Flow Wall Functions

Wetted Wall and Moving Wetted Wall (multiphysics coupling)

Edge and Point Conditions

Contact Angle

Line Mass Source

Point Mass Source

Pressure Point Constraint

Molecular Flow Features on Edges or Points

Number Density Reconstruction

Pipe Flow Boundary Conditions at Points

Bend

Closed

Contraction/Expansion

Local Friction Loss

n-way junction

No Flow

Pipe Connection (multiphysics coupling)¹

Pump

T-Junction

Valve

Y-junction

Inlet

Pipe Flow Domain Properties on Edges

Fluid Model

Bingham, Non-Newtonian

Herschel-Bulkley, Non-Newonian

Power Law, Non-Newtonian

Newtonian

Thin-Film Flow Boundary Conditions on Edges or Points

Border Flow

Inlet

Outlet

Symmetry

Wall

Global Features

Generate New Turbulence Model Interface

Material Library

Liquids and Gases

Part Libraries

Impellers, Axial

Impellers, Highly Viscous Fluids

Impellers, Radial

Shafts

Tanks

Particle Tracing

Boundary Conditions

Formulation

Particle Properties and Forces

Particle Release

Predefined Multiphysics Interfaces

Fluid-Membrane Interaction

Fluid-Membrane Interaction, Fixed Geometry

Fluid-Multibody Interaction

Fluid-Multibody Interaction, Assembly

Fluid-Particle Interaction

Fluid-Shell Interaction

Fluid-Shell Interaction, Fixed Geometry

Fluid-Solid Interaction

Fluid-Solid Interaction, Conjugate Heat Transfer

Fluid-Solid Interaction, Fixed Geometry

Fluid-Solid Interaction, Two-Phase Flow, Phase Field³

Fluid-Solid Interaction, Two-Phase Flow, Phase Field, Fixed Geometry

Fluid-Solid Interaction, Viscoelastic Flow⁴

Fluid-Solid Interaction, Viscoelastic Flow, Fixed Geometry

Poroelasticity

Results and Visualization

2D Histogram

Intersection Point 2D (data set)

Intersection Point 3D (data set)

Particle (data set)

Particle (plot)

Particle Bin (data set)

Particle Evaluation

Particle Trajectories

Phase Portrait

Poincaré Map

Volumetric Domain Properties

1D Formulations for Porous Media Flow

2D, Axisymmetric, and 3D Formulations

Domain Source (Shallow Water Equations)

Infinite Domain Modeling with Infinite Elements (Darcy's Law)

Mass Transfer, Bubbly Flow, Mixture Model and Euler-Euler Model

Neglect Inertial Term (Stokes Flow)

Pressure Work, Nonisothermal Flow

Shallow Channel Approximation, 2D

Surface Tension Effects

Swirl Flow, Axisymmetric, Laminar

Swirl Flow, Axisymmetric, Turbulent

Transition Model, SST

Viscous Dissipation, Nonisothermal Flow

Volume Force

Water Source (Shallow Water Equations)

Gravity

Non-Darcian flow

Thin Film Flow

Fluid Properties

Compressible Flow, Mach number <0.3

Density and Viscosity

Incompressible Flow

Weakly Compressible Flow

Constitutive Relations

Newtonian

Inelastic non-Newtonian

Thermal Effects (Inelastic non-Newtonian Constitutive Parameters)

Viscoelastic

Molecular Flow

Multiple Species

Number Density Reconstruction

Porous Media

Capillary Pressure, Multiphase Flow in Porous Media

Capillary Pressure, Two-Phase Darcy's Law

Mass Source

Poroelastic Storage, Isotropic and Anisotropic

Porous Electrode Coupling

Richards' Equation, Isotropic and Anisotropic

Storage Model, Isotropic and Anisotropic

Well

Darcy's Law, Isotropic and Anisotropic

Requires all indicated products
Requires the Pipe Flow Module and the CFD Module or Heat Transfer Module
Requires the Structural Mechanics Module or the MEMS Module, and the CFD Module or the Microfluidics Module or the Polymer Flow Module
Requires the Structural Mechanics Module or the MEMS Module, and the Polymer Flow Module