Join us for COMSOL Day Harford to participate in a panel discussion, engage in product demonstrations, meet with others in the field of simulation and multiphysics modeling as well as chat with COMSOL technical and sales staff. Feel free to invite your colleagues.
Please view our event schedule below and register for free today!
See how you can deploy the power of high-fidelity simulation to engineers, designers, operators, and scientists throughout your organization.
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 postprocessing.
Attend this presentation to learn about the tools for generating a geometry with COMSOL Multiphysics®. We will cover how to efficiently build geometry models that can be parameterized and look into how to carry out tasks such as creating a sketch with dimensions and constraints, generating 2D cross sections of 3D objects, and more. Generating a geometry also involves preparing selections for physics settings. By using the right selection tools, you can easily automate the modeling workflow, even when it involves simulations on widely different versions of a geometry.
Get a brief overview of using the Acoustics Module and Structural Mechanics Module within the COMSOL® software environment.
Learn how to model chemical kinetics and reaction engineering capabilities, including batch/CSTR/plug flow reactors, CHEMKIN® file import, and import of thermodynamic data. We will also discuss chemical species transport through diffusion, convection, and migration in electric fields, as well as reacting flow that involves fluid flow, heat transfer, and mass transfer with reactions. Plus, modeling mixing and reactions in rotating machinery, including the frozen rotor study, will also be covered.
Industry and government organizations will showcase how they are using multiphysics simulation to improve products and solve problems.
Learn about the capabilities of the AC/DC Module for modeling Maxwell's equations in the low-frequency regime. Use cases include resistive and capacitive devices, inductors and coils, as well as motors and magnets.
Get a brief overview of using the Heat Transfer Module within the COMSOL® software environment. We will discuss conjugate heat transfer with the combination of heat transfer in solids and heat transfer in fluids, including thermal radiation effects. These phenomena could also be coupled with structural mechanics, chemical reactions, and particle tracing.
Get an overview of the shape and topology optimization capabilities available in the COMSOL® software. Shape optimization involves the free-form deformation of a CAD part by means of the mesh and geometry deformation tools in COMSOL Multiphysics® and the Optimization Module. Using just a few control variables, you can quickly come up with improved designs. Topology optimization is used to come up with entirely novel designs by allowing the material distribution within the modeling domain to vary.
Get an overview of using the CFD Module for laminar, turbulent, non-Newtonian, multiphase, and porous media flows as well as flow in mixers. These phenomena could also be coupled with structural mechanics, chemical reactions, and particle tracing.