Heat Transfer

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COMSOL Multiphysics®
AC/DC Module
Acoustics Module
Batteries & Fuel Cells Module
CFD Module
Chemical Reaction Engineering Module
Corrosion Module
Electrochemistry Module
Electrodeposition Module
Heat Transfer Module
MEMS Module
Microfluidics Module
Nonlinear Structural Materials Module
Pipe Flow Module
Plasma Module
RF Module
Ray Optics Module
Subsurface Flow Module
Wave Optics Module
Select any check box to highlight individual products:
Physics Interfaces and Study Types
ExpandBioheat Transfer
ExpandHeat Transfer in Fluids
ExpandHeat Transfer in Pipes
ExpandHeat Transfer in Porous Media
ExpandHeat Transfer in Solids
ExpandHeat Transfer in Solids and Fluids
Radiation
ExpandRadiation in Absorbing-Scattering Media
ExpandRadiation in Participating Media
ExpandRadiative Beam in Absorbing Media
ExpandSurface-to-Surface Radiation
Thin Structures
ExpandHeat Transfer in Films
ExpandHeat Transfer in Fractures
ExpandHeat Transfer in Shells
Ambient Thermal Properties
User defined conditions
ExpandTime-dependent climate data for 6000+ stations (ASHRAE 2013)
ExpandTime-dependent climate data for about 8000 stations (ASHRAE 2017)
Material Library
Bioheat
Building
Liquids and Gases
Thermoelectric
Predefined Multiphysics Interfaces
ExpandConjugate Heat Transfer
ExpandHeat and Moisture Flow
ExpandHeat and Moisture Transport
ExpandHeat Transfer with Radiation in Absorbing-Scattering Media
ExpandHeat Transfer with Radiation in Participating Media
ExpandHeat Transfer with Radiative Beam in Absorbing Media
ExpandHeat Transfer with Surface-to-Surface Radiation
ExpandInduction Heating
ExpandJoule Heating
ExpandLaser Heating
ExpandLocal Thermal Non-Equilibrium
ExpandMicrowave Heating
ExpandRay Heating
ExpandThermoelectric Effect
Radiation in Absorbing-Scattering Media Features
Absorbing-Scattering Medium
Continuity on Interior Boundary
Discrete Ordinate Method
Henyey-Greenstein phase function
Incident Intensity
Isotropic, Linear Anisotropic, and Nonlinear Anisotropic Scattering
Opaque Surface
P1-Approximation
Periodic Condition
Radiation in Participating Media Features
Continuity on Interior Boundary
Discrete Ordinate Method
Henyey-Greenstein phase function
Incident Intensity
Isotropic, Linear Anisotropic, and Nonlinear Anisotropic Scattering
Opaque Surface
P1-Approximation
Participating Medium
Periodic Condition
Radiative Beam in Absorbing Media
Absorbing Medium
Incident Intensity
Opaque Surface
Transparent Surface
Surface-to-Surface Radiation Features
Diffuse Mirror
Diffuse Surface
Domain opacity
Opaque Surface, diffuse-specular
Prescribed Radiosity
Semi-Transparent Surface
Wavelength-dependent Properties
ExpandExternal Radiation Source
ExpandSymmetry
ExpandView Factor Computation Method
Thermal Boundary Conditions
Axial Symmetry
Boundary Heat Source
Deposited Beam Power
Heat Continuity
Inflow
Marangoni effect (multiphysics coupling)
Open Boundary
Outflow
Periodic Heat Condition
Surface-to-Ambient Radiation
Symmetry
Temperature
Thermal Insulation
Expand Heat Transfer in Thin Structures
ExpandFracture
ExpandHeat Flux
ExpandIsothermal Domain Interface
ExpandThermal Contact
ExpandThin Film
ExpandThin Layer
Thermal Edge and Point Conditions
Thin Rod
ExpandHeat Transfer in Thin Shells
ExpandLine and Point Heat Source
ExpandThin Layer, Thin Film and Fracture
ExpandWall Heat Transfer for Heat Transfer in Pipes
Thermal Volumetric Domain Properties
Building Material
Heat Source
Heat Sources, Electrochemical Reactions and Joule Heating
Infinite Domain Modeling with Infinite Elements
Isothermal Domain
Optically Thick Participating Medium, Rosseland approximation
Out-of-plane Heat Transfer
Pressure Work
Shape Memory Alloy1
Thermoelastic Damping
Translational Motion
Viscous Dissipation
ExpandBiological Tissue
ExpandFluid
ExpandIrreversible Transformation
ExpandMoist Air
ExpandPorous Medium
ExpandSolid
Thermodynamics for Heat Transfer in Fluids
Gas/Liquid
Ideal Gas
Moist Air
  1. Requires all indicated products