Join this webinar to learn about the use of green and low emission energies and CO2 emission reduction and capture using simulation.
Simulation: A New Tool for the Environmental Transition of Industries – Part 1 | Ansys Webinar
- 31st March 2022
3:00 pm - 3:30 pm
Time:
March 31, 2022
10 AM EDT / 3 PM BST / 7:30 PM IST
Venue:
Online
About this Webinar
Developing a more environmentally friendly product has become a vital issue in all industrial fields. From eco-design to the use of more efficient and less polluting fuels, all industrial sectors seek to innovate and transform.
During this two-part webinar series, we will present how Ansys, through its various products, helps companies in critical sectors innovate, improve their performance while reducing their carbon footprint, and consider new environmental issues.
This first webinar will focus on green and low-emission energies and CO2 emission reduction and capture.
The final webinar of the series will take place on April 12, 2022, at 2:00 pm BST, 10:00 am EDT, and will focus on Hydrogen, from extraction to use phases.
What you will learn
Learn about the use of green and low emission energies and CO2 emission reduction and capture using simulation
Speakers
Benoit Chassaigne
Registration / Further Information
Simply choose one of the following options to receive further information or to register.
- Complete the form opposite
- Call us on +44 (0) 333 996 9930
- Email us at events@WildeAnalysis.co.uk
Please note that this event is free to attend but registration is essential.
What you will learn
- Watch the different ways to express Maxwell’s equations: integral-vs-differential, time-vs-frequency domain, and how these give rise to different types of solvers
- Learn what a full-wave field solver is
- See the differences between finite elements (FEM) and finite difference time domain (FDTD)
- Observe what an integral equation solver is and how does it differ from other EM solvers
- Discover the importance of electrical length in choosing between different types of solvers: quasi-static, full-wave, and asymptotic methods
- See how advanced hybrid field solvers combine different EM solver technologies
- Combine electromagnetic solvers with thermal and mechanical solvers to perform multiphysics simulations