All posts by Phil Kinnane
Simulating the Art of Swing Bowling in Cricket
The swing bowling move in cricket is as much an art form as it is an athletic feat. Researchers at the COMSOL Conference 2015 Boston simulated the fluid mechanics of conventional swing bowling.
World’s Largest Solar Power Plant
Have you ever made the drive from Los Angeles to Las Vegas through the Mojave Desert? If so, you might have seen the world’s largest solar-based thermal power plant.
New Mixer Module Showcases CFD Capabilities of COMSOL
The Mixer Module provides ready-made interfaces for describing the difficult problem of laminar and turbulent flows in rotating machinery with free liquid surfaces. COMSOL has been developing different techniques for modeling CFD, moving geometries, and free surfaces during the past few years for a number of different applications. This has now culminated in the new Mixer Module that was released with version 4.4, and it clearly showcases the improved CFD capabilities of COMSOL.
COMSOL Conference 2013 Rotterdam Keynotes on Multiphysics Applications
The COMSOL Conference 2013 Rotterdam was well-attended and highly informative. The keynotes were the high point of the event, and they were excellent examples of multiphysics applications. The sophistication of the modeling work presented by Alwin Verschueren of Philips Research Laboratories in Eindhoven, the Netherlands, and Holger Ernst and Christian Schröder of mieletec FH Bielefeld, Germany, was truly spectacular and kept all the attendees enthralled.
COMSOL Conference 2013 Boston Paper and Poster Winners
On Thursday evening of the COMSOL Conference 2013 Boston, winners of the top papers and posters were presented with their awards. Reading through their papers and posters, I noticed a common theme: they all included experimental validation of their simulation results. While modeling provides crucial insight and understanding, as well as the opportunity to design and optimize your applications and processes, its credibility often depends on whether results test well against known results. The award winners at the multiphysics conference […]
Electrochemistry, from Electroanalysis to Industrial Electrolysis
My colleague, Edmund Dickinson, recently blogged about cyclic voltammetry, and how this can be modeled. It was a fantastic blog entry, as it really described the application, and how to implement such models in COMSOL Multiphysics. While Edmund has a background in electroanalysis, where cyclic voltammetry, potentiometry, and electrochemical impedance are important tools, I had a different but similar life before COMSOL, working within industrial electrolysis. For both of us, the new Electrochemistry Module would have been the perfect tool […]
Why Model Electrochemical Applications?
It’s always been hard to place the field of electrochemistry into a more traditional engineering field. Departments and institutions that focus on electrochemical applications can be found within the faculties of Chemical Engineering, Physics, Materials Science, Physical Chemistry, and even Civil Engineering and Electrical Engineering. I believe this is because electrochemistry is heavily involved in applications that are quite varied — and in some ways quite new. Electrochemical applications need to be studied before they can be understood and optimized, […]
How to Model Multiphysics in Multimaterial?
Dr. Raj Thiagarajan is a prolific producer of interesting research articles ranging from waste-water treatment to acoustics metamaterials, and lots in between. As the Managing Director at ATOA (“Atom TO Application”) Scientific Technologies, a COMSOL Certified Consultant, Raj has had to simulate all types of applications. Now he will show you how to use multiphysics simulations in multimaterial and composite product design.
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