COMSOL Multiphysics Intensive Training (2 Days)

Date and location

City: Zürich
Date: marraskuu 6, 2014
Time: 9:00-17:00
Address: Technopark Zürich
Technoparkstr. 1
8005 Zürich
Room: Schulungsraum Hawaii, Haus Darwin (1. Stock)
language: Material in English, personal assistance in Deutsch and en français.

Introduction

We start at an introductory level, then lead the student through topics needed in all analyses (interactive meshing techniques, choosing solvers, etc) and then into advanced topics (coupling variables, adding and modifying equations) using lecture, worked examples and workshop problems. The goal is to immerse the student in all of the main aspects of using COMSOL so that he or she can feel comfortable with most of the commands accessible from the user interface and confident that they can be productive solving simulation problems with COMSOL.

Day 1, 09:00-17:00

By considering a variety of models we will bring out points to help you get the most out of each step in the modeling process.
In particular we will consider...

  • Modeling with COMSOL Multiphysics
  • Geometry modeling in 2D and 3D
  • Specifying physics condition
  • Couplings between physics
  • Using expressions
  • Controlling mesh generation
  • Analysis type and solver choices
  • Post-processing options

Day 2, 09:00-17:00

By considering a variety of models we will bring out points to help you get the most out of each step in the process.
In particular we will consider...

  • Solvers available and options
  • Advanced geometry modeling
  • Controlling the degrees of freedom
  • Advanced and interactive meshing
  • Standard and advanced post-processing options
  • Using external functions in the material parameters
  • Non-local coupling variables (extended multiphysics)

According to the length of the course and the interests of the participants, some or all of the above will be considered.

Instructor

Dr. Valentina Troncale
COMSOL Multiphysics GmbH, Zürich

Valentina Troncale obtained her MSc degree in Physics form the Università degli Studi di Milano, focusing on Condensed Matter Physics. After joining CERN, where she worked on the optimization of ISOL Ion Beam genreration, she obtained her PhD degree from EPFL (Laboratory of Physics of Nanostructures) with a Thesis on optical properties of semiconductor quantum-dots. After a collaboration with the Applied Mathematics Institute at the University of Lausanne, she joined the Nanoelectronics Group at the IBM Research Labs in Zürich, where she developed semiconductor nanowire-based devices for heat transfer and thermoelectrics. Valentina is part of the COMSOL Multiphysics Team in Zürich since June 2013.

Dr. Sven Friedel
COMSOL Multiphysics GmbH, Zurich

Dr. Sven Friedel is a physicist and earned his Ph.D. at the University of Leipzig (Germany) in geophysics, specializing in electromagnetic inverse problems applied to tomographic imaging. He also taught courses in, among other things, geomagnetics. For his research he focused on the simulation of electrical, fluidic, and thermal processes in volcanoes. After several years working as a postdoctoral researcher in the area of geotechnical engineering at the ETH in Zurich, in 2004 Dr. Friedel established COMSOL AB's branch office in Switzerland.

Zoran Vidakovic
COMSOL Multiphysics GmbH, Zürich

Zoran Vidakovic received his BSc and MSc degrees in mechanical engineering from ETH Zürich, Switzerland. His studies and research projects focused on turbomachinery, heat transfer, fluid-
and thermodynamics and advanced energy technologies in general. In his master thesis at the Laboratory for Energy Conversion he numerically investigated the turbine performance and heat transfer of innovative cycle concepts for CO2 capture ready fossil power plants. Before joining COMSOL in April 2010 Mr. Vidakovic completed a six month industrial internship in the Aero-/ Thermodynamics R&D department of MAN Turbo AG Schweiz.

Suggested Background

This course is suitable for anyone interested in using COMSOL Multiphysics for the mathematical modeling of physics phenomena such as heat transfer, transport phenomena, fluid dynamics, electromagnetics, photonics, structural mechanics, and acoustics. No previous experience with COMSOL Multiphysics is required.

Registration

Please register by using the form below or Email to info@ch.comsol.com or ask there for more information. Upon registration you will receive an email confirmation of your reservation, directions to the course site and lodging suggestions.


Fee

The fee for this twoday course is CHF 1999 + VAT including printed course material, lunch and coffee. A limited number of registrations at academic discount is available (CHF 999) - feel free to ask (+41 44 515 78 00). If you book several courses at once - discounts may be available upon request. One-day participation available on request.


Cancellation/Return policies

Instructor-led training tuition is fully refundable if we receive written notification (via mail or e-mail) of cancellation on or before 14 business days prior to the class. Cancellations made less than 14 business days prior to class will be charged 25% of the fee. If you fail to show up to class without written notice, you will be charged the full tuition. You may send a substitute in your place to avoid a fee. If a training course cannot take place as scheduled due to circumstances beyond COMSOL's control, we will issue a full refund for the amount that you have already paid.


Hereby I register for the following two-day training course

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