Thermal Analysis
Service
Microfluidics
Veryst offers a comprehensive approach to solving problems in microfluidic device development. We employ an array of modeling tools, such as scaling arguments, analytical formulas, computational simulations, and laboratory testing to inform the design and integration of common components.Multiphysics Modeling
Accurate simulation of many products now requires a multiphysics approach. Veryst Engineering specializes in multiphysics problems involving solids, fluids, heat transfer, mass transfer, acoustics, and electromagnetics. Our modeling and analysis expertise includes fluid-structure interaction, thermal-structure interaction, structural-acoustic vibrations, conjugate heat transfer, Joule heating, and microwave heating.Non-isothermal Flows
Modeling convective flow requires coupling fluid-flow with heat transfer. The coupled processes can be very complex, particularly if the fluid flow is turbulent, or if the heat transfer involves processes such as boiling, evaporation, or mixed fluids with varying thermal properties. F
Simulation & Analysis
Veryst provides expertise in many aspects of simulation and analysis for use in product design, manufacturing processes, and failure analysis. This includes modeling and analysis involving polymer materials, multiphysics modeling, finite element analysis, computational fluid dynamics, compu
Thermal Analysis
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.News item
Article in NASA Software Tech Briefs
Veryst Engineering published an article in the September 2013 issue of NASA Software Tech Briefs titled "Conjugate Thermal Analysis of a Generic LED Light Bulb." The article illustrates how a coupled thermal CFD (computational fluid dynamics) analysis is used to predict the temperature vari