Blog Posts Tagged CFD Module
Optimizing Microwave Furnaces for Solar-Grade Silicon Production
For silicon to be considered “solar grade”, it has to be 99.9999% pure. Therefore, microwave furnaces used to produce solar-grade silicon need to be optimized for quality and efficient output.
Benchmark Model Shows Reliable Results for Inertial Focusing Analysis
Inertial focusing involves the migration of particles through a channel. This benchmark model analyzes particle behavior in an inertial focusing process with validated, reliable results.
How to Use the v2-f Turbulence Model in the CFD Module
The v2-f turbulence model is an effective option for simulating highly nonlinear turbulent flow problems with both the accuracy and robustness of other, more limiting methods.
Modeling Natural and Forced Convection in COMSOL Multiphysics®
Get an overview of several approaches for modeling natural and forced convection in COMSOL Multiphysics®, starting with the simplest method and adding complexity from there.
Finding an Accurate Model to Study Blood Flow Around a Stent
Biomedical example involving CFD simulation: In order to analyze the blood flow around an arterial stent, you need a fluid model that can describe blood’s non-Newtonian behavior.
Exploring the Effect of Greenery on Urban Air Pollution via Simulation
Can planting greenery in cities actually reduce air pollution? Researchers used CFD simulation to investigate how greenery affected the air quality of urban environments.
Predict the Performance of Rotating Cone Micropumps with Simulation
Researchers from Texas A&M University used multiphysics simulation to evaluate the fluid dynamics and performance of a rotating cone micropump, a key component in many types of process equipment.
Analyzing Novel Roof Tile Designs with Multiphysics Simulation
To investigate a novel design for roof tiles that can keep buildings cool in hot climates, called Life HEROTILE Project, a research group from Italy turned to multiphysics simulation.