COMSOL Day New Delhi
See what is possible with multiphysics modeling
Join us for COMSOL Day New Delhi to see firsthand how multiphysics simulation can benefit your work. Whether you are considering using COMSOL Multiphysics®in your organization and want to see how it works, or an existing user looking to catch the latest news, this event has something for you.
View the schedule below and register for free today.
Schedule
Learn the fundamental workflow of COMSOL Multiphysics®. This introductory demonstration will show you all of the key modeling steps, including geometry creation, setting up physics, meshing, solving, and evaluating and visualizing results.
In this session, we will cover the updates in the electromagnetics products.
In version 6.2 of the AC/DC Module, nonlinear motor and transformer simulations have become significantly faster due to a new method for time-dimension periodicity. The module now includes dielectric models for tissue simulation, and dedicated functionality streamlines the modeling of imperfectly stranded conductors, like litz wires. For RF Module and Wave Optics Module users, high-frequency analysis, based on the boundary element method, is enhanced by the introduction of new boundary conditions. The Plasma Module offers more efficient handling of chemical reactions in plasmas and microwave plasma simulations. The Semiconductor Module includes several performance and robustness improvements, enabling users to preview doping profiles before solving.
This session will cover news in the Chemical Reaction Engineering, Electrochemistry, Electrodeposition, Corrosion, Battery Design, and Fuel Cell & Electrolyzer modules.
Highlights include:
- New and improved features for porous reactor modeling in theChemical Species Transportinterfaces
- Modeling species adsorption and desorption on electrode surfaces
- The newCathodic Protectioninterface for modeling corrosion protection
- New intercalation strain functionality for battery electrode modeling
- Electroosmotic water drag and membrane crossover in fuel cells and electrolyzers
In this session, we will cover the updates for structural mechanics and acoustics in version 6.2.
Users of the structural mechanics products will see updated damage and fracture modeling capabilities, along with tools for circuit board warpage computation and magnetic–structure multiphysics analysis of electric motors. This version also introduces capabilities for studying transport in solids, which can be used for modeling electromigration and other phenomena. Moisture transport is now more tightly integrated with structural deformations, including how it modifies the storage coefficients and porosity. Inertia relief analysis — now automated in the new version — makes it easier to analyze unconstrained structures that are accelerated by external loads.
This version also introduces a viscoplastic material model specialized for the unique properties of lithium in battery applications. Usability and performance have been significantly enhanced for parameter estimation of experimental data, including uniaxial, biaxial, and cyclic load cases.
For Acoustics Module users, frequency-dependent impedance boundary conditions now enable audio engineers to more accurately simulate acoustics in the time domain with realistic absorption. ThePoroelastic Wavesfeature has been extended to include anisotropic materials, and users will notice considerable performance enhancements in impulse response calculations for room and cabin acoustics simulations using ray acoustics.
COMSOL Multiphysics®version 6.2 comes packed with new functionality for fluid flow and heat transfer.
In the CFD Module, large eddy simulation (LES) is implemented for compressible flow for accurate modeling of the flow of gases at Mach numbers below 0.3. There are also seven new Reynolds-averaged Navier–Stokes (RANS) turbulence model interfaces for high-Mach-number flow. A new potential flow interface can be used to get good initial values for the flow and to obtain faster convergence.
In the Heat Transfer Module, theSSTturbulence model has been added for accurate nonisothermal flow and conjugate heat transfer simulations. The ASHRAE weather data feature is extended with a search function based on a GPS position, i.e., the feature finds the closest weather station to the GPS position. Additionally, a new thermal connection feature has been added in order to connect and add thermal resistance between two surfaces that are not geometrically in contact in the model.
Join us in this session to learn more about these updates as well as additional fluid flow and heat transfer news!
Register for COMSOL Day New Delhi
To register for the event, please create a new account or log into your existing account.
For registration questions or more information contactinfo-in@comsol.com.
COMSOL Day Details
Location
CrystalNh 8, near Mahipalpur Extension, Block R, Mahipalpur Village, Mahipalpur
Delhi 110037