Heat Transfer Blog Posts
Modeling Convective Cooling of Electrical Devices
We developed a model that includes all of the important details of thermal management in a high-power electrical device. To do so, we needed to use high performance computing with hybrid modeling.
Cable Simulations Spark New Developments at Prysmian Group
The Prysmian Group, a leader in cable systems for many different industries, are using simulation to improve their development process, save resources, and optimize their cable designs.
Heat Transfer in Deformed Solids
Learn how to model the physics that account for thermoelastic effects in immobile solids when coupling heat transfer and solid mechanics. Follow-up to an earlier post on conjugate heat transfer.
Hyperthermic Oncology: Hyperthermia for Cancer Treatment
Hyperthermic oncology: A type of cancer treatment in which high temperatures are used to destroy tumor cells. Learn about the physics behind this method and how simulation can be used to improve it.
Powerful Packaging for Electronics in Extreme Environments
U.S.-based Arkansas Power Electronics International is designing power packaging for improved thermal management in power electronics devices, increased efficiency, and lower costs.
Defining Curvilinear Coordinates for Anisotropic Materials
Consider a carbon-fiber-reinforced polymer with woven fibers embedded in an epoxy matrix. How can you express the anisotropy by referring to the well-known Cartesian coordinate system?
How to Model Thermoviscous Acoustics in COMSOL Multiphysics
Want to solve your acoustics model for acoustic pressure, velocity, or temperature variation? Enter the Thermoviscous Acoustics interface, which offers a simple and accurate way.
Buoyancy-Driven μPCR for DNA Amplification
True crime + simulation: The more DNA in a sample, the easier it is to accurately test and identify biomolecules, cells, and even an entire person during forensic investigations.