Passive Cooling: Internal, Sealed

Components within a sealed, passive device are cooled by natural convection, conduction, and radiation. Temperature variations in the air cause density gradients, which in turn cause the air to move. Air cannot leave the device, so all heat transfer occurs through the casing. The air movement, conduction, and radiation transfer heat from heated components to the surrounding environment.

Flow in a passively cooled, sealed device is often laminar, and radiation plays an important part in removing heat.

Applications

Modeling Strategy

Materials

Boundary Conditions

Mesh

A basic guideline for a high-quality analysis model is that the mesh distribution be sufficient to resolve the flow and temperature gradients efficiently. In regions where the flow circulates or experiences large gradients (such as in wakes, vortices, and separation regions), a finer mesh is required.

For most models, use Automatic Sizing to define the mesh distribution. It may be necessary to locally refine the mesh on geometric features that are highly detailed. For more information about Mesh Autosizing and model preparation...

In some cases, it may be necessary to adjust the Minimum Refinement Length to reduce their effect on the overall mesh count.

To locally refine the mesh in high-gradient flow regions:

Running

Results Extraction

Flow Distribution

Component Temperatures

For more general information, use the extensive collection of results visualization tools to extract flow and thermal results.

Things to Avoid