Veryst Engineering, LLC

Water electrolysis for hydrogen production is a key enabling technology for global decarbonization. In this case study, Veryst simulated the electrical current distribution and gas generation in a proton exchange membrane electrolyzer stack to identify potential process inefficiencies and recommend optimal operating conditions. For more, see our case study https://lnkd.in/eF3Z9ifW #electrolysis #hydrogenproduction #greenhydrogen #cleanenergy #renewableenergy #hydrogeneconomy #energytransition #sustainableenergy #energystorage #decarbonization #netzero #greentech #electrochemistry #comsol #chemicalengineering

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Veryst was called after a train derailed, resulting in a fire and evacuation of a neighborhood.  Our challenge: determine the root cause of the derailment.  Read the case study at: https://lnkd.in/e2nC_UWX # failureanalysis # rootcause # testing # simulation

#FEA and #multiphysicsmodeling are complimentary to prototyping, development, and optimization of soft actuators and devices.  Join Nick Vasios, Ph.D. on January 16 for this #free #webinar on Modeling Soft Actuators and Devices.  The webinar will cover examples of how informed finite element #modeling of soft #actuators can effectively unravel the nonlinear relationship between input stimulus and device functionality, explain nonlinear phenomena, and tackle #multiphysics problems which are notoriously challenging to address experimentally. Register for this webinar here: https://lnkd.in/eE6-tJef

#FEA and #multiphysicsmodeling are complimentary to prototyping, development, and optimization of soft actuators and devices.  Join Nick Vasios, Ph.D. on January 16 for this #free #webinar on Modeling Soft Actuators and Devices.  The webinar will cover examples of how informed finite element #modeling of soft #actuators can effectively unravel the nonlinear relationship between input stimulus and device functionality, explain nonlinear phenomena, and tackle #multiphysics problems which are notoriously challenging to address experimentally. Register for this webinar here: https://lnkd.in/eE6-tJef

Nirmal Paudel, Ph.D. is giving a #free #webinar on #Electromagnetic #Simulation of Inductive #Sensors on Dec. 12th from 1:00-2:00 pm eastern time. An inductive eddy current sensor is a non-contact device that generates electromagnetic fields to detect changes in the properties of conductive materials, such as defects, thickness, or conductivity. This webinar will introduce the fundamentals of inductive sensors, present a detailed workflow for designing them for nondestructive testing, and much more. Join Dr. Paudel to learn how you can simulate inductive devices to help drive your EM sensor designs! Learn more and register here: https://lnkd.in/eBkMQesZ

Microfluidic mixers produce highly accurate solute mixing between fluid channels by cross-stream diffusion in laminar viscous dominated flow.  What is the appropriate mixer configuration to achieve a desired mixing between pure and salt water channels?  Veryst developed a coupled CFD (computational fluid dynamics) species transfer model of the mixer in COMSOL Multiphysics.  Read more: https://lnkd.in/emRuTJRY #cfd #microfluidic #multiphysics #simulation

Patent granted for Veryst's custom-built drop tower! Veryst's clients are often at the leading edge of industry, working with materials and applications that require highly precise and sophisticated testing techniques. Veryst developed a drop tower for conducting high strain rate uniaxial tension and compression tests to meet the demands of their clients and has been granted a United States patent on the design. Veryst's drop tower is a unique and versatile test system that can be used to measure accurately the high-rate stress-strain response of elastomers, thermoplastics, foams, engineering composites, thermosets, and biomaterials.  The system: - is designed to minimize dynamic vibrations for all polymer materials, from soft elastomers and foams to stiff thermoplastic composites - uses high speed video to record deformation history - uses digital image correlation (DIC) to record the strain field - uses dynamic load cells to record force measurements - is capable of large deformation measurements, up to an engineering strain of 500% in tension - includes custom software for combining the measured stress and strain data into a unified data file in csv-file format - can be expanded with additional test fixtures designed for custom testing. We also offer a temperature chamber as an optional supplement to the drop tower to enable testing at elevated and sub-ambient conditions.  Many of our clients are interested in purchasing our customized test systems for their own use.  Learn more: https://lnkd.in/evzHSfUP #testing #material #DIC

On November 14th, Nirmal Paudel, Ph.D. be discussing "Electromagnetic Simulation of an Axial Flux Motor" as part of COMSOL Day: Vehicle Electrification. This event will delve into the latest simulation tools and techniques essential for the future of electric vehicles. From optimizing motor efficiency to addressing thermal management, the day is packed with insights for engineers, researchers, and innovators in EV technology. Join this online event to explore: 🔹 Key electromagnetic simulation strategies for axial flux motors 🔹 Real-world applications and examples 🔹 Practical insights on using COMSOL for motor design and analysis Learn more: https://lnkd.in/ez7YTaRz #COMSOLDay #VehicleElectrification #ElectricVehicles #Simulation #AxialFluxMotor

Sean Teller, Ph.D. will be offering a #free, one-hour #webinar on High Rate #Testing of #Polymers for Finite Element Analysis (#FEA). He'll discuss the importance of rate dependence of polymers, methods to measure material response at quasi-static and impact strain rates, and how to use this data to inform and optimize your component design. Learn more and register here: https://lnkd.in/eHkmV2HT