Heat Source (Heat Transfer in Shells Interface)
This node models a linear heat source (or sink). It adds a heat source q = Qb or q = Pb ⁄ A. A positive q is heating and a negative q is cooling.
Layer Selection
Select the applicable layers (the default setting is All layered materials) defining the required material properties for the node.
If no layered materials have been included yet, there is a shorthand available for creating a Single Layer Material, a Layered Material Link, or a Layered Material Stack (the plus, next to the Layered Material list).
When a layered material stack or link is selected from the Layered Material list, unselect the check boxes corresponding to layers where the node should not be applied in the Selection table.
You can visualize the selected layered materials and layers in each layered material by clicking the Layer cross section preview and Layer 3D preview buttons.
The desired selection for the node may correspond to boundaries with different layered materials. The All layered materials option allows to gather these materials to make the desired selection applicable for the node on the union of the boundaries where the layered materials are defined.
Material Type
Select an option in the Material type list to specify if the inputs of the Heat Source section are defined in the material or spatial frame:
The default option for the Heat Source node is Solid, which specifies that the heat source Qb is defined in the material frame. Because the heat transfer variables and equations are defined in the spatial frame, the inputs are internally converted to the spatial frame. See Conversion Between Material and Spatial Frames for details.
The Nonsolid option defines Qb in the spatial frame. No frame conversion is needed.
The From material option uses the option selected in the Material type list of the Material Properties section of the material applied on the domain on which the node is active.
Boundary Heat Source
Click the General source (the default) or Heat rate button.
For General source, enter the boundary heat source Qb. A positive Qb is heating and a negative Qb is cooling.
For Heat rate enter the heat rate Pb. In this case Qb = Pb ⁄ A, where A is the total area of the selected edges (where A is the product of the layer’s thickness ds by the total length of the selected edges).
In 2D components, the equation contains an additional factor, dz, to account for the out-of-plane thickness. This is because the selected points correspond to edges in a 3D geometry.
Location in User Interface
Context menus
Heat Transfer in Shells>Heat Source
Heat Transfer in Films>Heat Source
Heat Transfer in Fractures>Heat Source
Ribbon
Physics Tab with Heat Transfer in Shells selected:
Edges>Heat Source