Veryst offers clients consulting services in thermal modeling of both solid and fluid systems, including interactions between these systems. We employ state-of-the-art finite element analysis and computational fluid dynamics methods both to analyze and visualize the thermal profiles within client systems. Our simulation capabilities also include hard-to-solve coupled problems, including the interactions between thermal and structural effects and fluid movements resulting from thermal gradients.
A team at Veryst Engineering used multiphysics simulation to investigate and determine how an elevator brake system failed prematurely.
Veryst’s modeling and simulation work was featured in a COMSOL blog that describes how Veryst modeled the way in which a heart valve opens and closes in response to fluid flow, providing insight that can be used to improve the design of artificial heart valves.
Veryst’s modeling and simulation work was featured in a COMSOL blog titled “Preventing Bubble Entrapment in Microfluidic Devices Using Simulation.” The blog describes how Veryst modeled different microchannel geometries and simulated bubble movement, providing insight that can be used to improve the design of microfluidic devices.
Veryst’s simulation expertise was highlighted in a COMSOL blog titled “Using Simulation Software in the Courtroom.” The blog cites Veryst’s work analyzing the failure of a disk brake as an example of how simulation can be used in legal cases.
COMSOL offers an “inside look” at how Veryst’s engineers collaborate to produce accurate and reliable simulations.
Dr. Nagi Elabbasi has a guest editorial article in COMSOL News 2017 Acoustics Edition. The article is titled “How Computational Acoustics Benefits from Multiphysics” and discusses some of the developments and challenges in acoustic simulation
Veryst is pleased to welcome Dr. Andrew Spann to its engineering team. Dr. Spann's expertise uses high-performance computing to study complex physical systems, including biological systems such as vesicles, red blood cells, microfluidic devices, and platelets.
Press Release: BURLINGTON, MA (April 25, 2011) — COMSOL, Inc., developer of the industry-leading COMSOL Multiphysics modeling and simulation environment for scientists and engineers, announces that Veryst Engineering LLC has become a COMSOL Certified Consultant.
Dr. Alireza Kermani used CFD software to prepare an evaluation of ventilation system design in hospital patient rooms. The study was presented at COMSOL Conference 2015 Boston and was later the subject of a COMSOL blog.
Researchers at the Gas Technology Institute studying safe and efficient pipeline maintenance procedures chose Veryst to assist with identifying the appropriate material tests and material model needed for GTI’s polyethylene material. This project became the subject of a COMSOL blog.
Veryst's simulation capabilities—and work from Dr. Alireza Kermani—were again highlighted in a recent COMSOL blog titled "Designing Effective Transdermal Drug Delivery Patches with Simulation."
Helical springs are used in nearly every industry, from medical devices to cars and planes, from toys and consumer products to industrial products. This COMSOL blog describes how Veryst developed a simulation app using the Application Builder in the COMSOL Multiphysics software.
In this four-part series, Dr. Nagi Elabbasi discusses some exciting real world simulation applications using the software COMSOL Multiphysics and describes recent innovations and advances in simulation.