Out-of-Plane Radiation
Out-of-plane heat transfer mechanism is used to reduce a model geometry to 2D or even 1D when the temperature variation is small in one or more directions; for example, when the object to model is thin or slender. This node models surface-to-ambient radiation on the upside and downside for the obtained 1D and 2D components. It adds the following contribution to the right-hand side of Equation 6-4 or Equation 6-5:
Upside Parameters
Surface emissivity
The default Surface emissivity εu (a dimensionless number between 0 and 1) is taken From material. For User defined, it should be specified. An emissivity of 0 means that the surface emits no radiation at all while an emissivity of 1 means that it is a perfect blackbody. The default is 0.
Ambient temperature
For User defined, enter a value or expression for the Ambient temperature Tambu. The default value is approximately room temperature, 293.15 K (20 ºC). Else, select an Ambient temperature defined in the Ambient Settings section of a Heat Transfer or Heat Transfer in Shells interface.
Downside Parameters
Follow the instructions for the Upside Parameters section to define the downside parameters εd and Tambd.
Upside and downside settings can be visualized by plotting the global normal vector (nx, ny, nz), that always points from downside to upside. Note that the normal vector (ht.nx, ht.ny, ht.nz) may be oriented differently.
See Tangent and Normal Variables in the COMSOL Multiphysics Reference Manual.
Out-of-Plane Heat Transfer for a Thin Plate: Application Library path Heat_Transfer_Module/Verification_Examples/thin_plate
Location in User Interface
Context menus
Heat Transfer>Out-of-Plane Radiation
Heat Transfer in Solids>Out-of-Plane Radiation
Heat Transfer in Fluids>Out-of-Plane Radiation
Heat Transfer in Porous Media>Out-of-Plane Radiation
Heat Transfer in Building Materials>Out-of-Plane Radiation
Bioheat Transfer>Out-of-Plane Radiation
Heat Transfer with Radiation in Participating Media>Out-of-Plane Radiation
Ribbon
Physics Tab with interface as Heat Transfer, Heat Transfer in Solids, Heat Transfer in Fluids, Heat Transfer in Porous Media, Heat Transfer in Building Materials, Bioheat Transfer or Heat Transfer with Radiation in Participating Media selected:
Domains>interface>Out-of-Plane Radiation