Resistance heating of a catalytic reforming reactor

Multiphysics Simulation of Electromagnetic Heating for Industrial Decarbonization - July 2024

Free, One-hour Webinar

Today, industrial process heat is primarily derived from burning fossil fuels, in which approximately one-third of the heat generated is typically lost as waste.  Industrial heating is also the source of more than 30% of our greenhouse gas emissions.  Electromagnetic heating technologies can deliver energy directly to where it is needed and are a critical technology for reducing emissions and energy use in manufacturing.  In this webinar, we will review various modes of electromagnetic heating, their underlying physics, and key methods for developing accurate multiphysics models of these technologies.  We will present three case studies of multiphysics models that couple electromagnetics, heat transfer, and other physics such as fluid flow and chemical reactions.

Details

1:45 pm
Web-based Course
1:45 pm - 2:00 pm
Question and Answer Session
(*
EDT - Eastern Daylight Time
)
Registration deadline

Course Instructor

Dr. Mike Kuron is a Principal at Veryst Engineering.  Dr. Kuron’s primary area of expertise is multiphysics modeling of fluid flows coupled with heat transfer, chemical reactions, and electromagnetics.  He works with clients in the aerospace and defense, power and energy, nuclear, turbomachinery, electronics, and healthcare industries to provide simulation-driven product engineering solutions. 

Dr. Kuron has applied his simulation expertise to a wide range of product design challenges, including gas turbine components, squeeze film dampers, vacuum furnaces, an innovative vertical take-off and landing jet design, slurry pumps subject to component erosion, steam jet ejectors, thermal and structural performance of electronics enclosures, medical device sterilization chambers, and razor blade cartridges.

Learning Objectives

This webinar aims to introduce important aspects of multiphysics modeling of electromagnetic heating technologies. By the end of this webinar, you will have a deeper understanding of:

  • the benefits and potential applications of electromagnetic heating for industrial decarbonization
  • how multiphysics modeling can help to develop electromagnetic heating devices
  • critical simulation methods for modeling resistive, inductive, and RF heating

 

Induction heating of a packed bed reactor

Registration

The July 25, 2024 Multiphysics Simulation of Electromagnetic Heating for Industrial Decarbonization - July 2024 web-based course is free, but registration is required and class size is limited.

Use our on-line registration form (see below) or print out this page and submit by one of the following:

  • Scan and email to: seminars@veryst.com
  • Fax to: 781.433.0933
  • Mail to:
    • Seminars
    • Veryst Engineering
    • 47A Kearney Road
    • Needham, MA 02492

Deadline for registration is: Friday, July 19, 2024.

Cancellation Policy

Veryst reserves the right to reject registrations and to cancel a webinar based on class size.

 

Important Information

*  You will receive an email confirmation once you have completed your registration.

*  You will receive an email with login information the day before the webinar.

*  If you don't see those emails, please check your junk or spam folder.

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