WHEN
24 NOVEMBER 2021
WHERE
MS TEAMS
TIME
9.00AM - 5.00PM
RM 330 FOR PROFESSIONAL
10% Discount for Early Bird (24 October 2021) / Group / Students
COURSE SUMMARY
INTRODUCTION
Various computational techniques have been developed in order to solve electromagnetic problems. Finite Element Method (FEM) is particularly suitable for modeling three dimensional volumes that have complex geometrical details and numerical. Hence, the FEM method is able to model a variety of physically meaningful structures without the need for re-formulation. The finite element method emerged to extent from the mechanical and civil engineering communities, to becoming an interesting approach for solving Maxwell’s equations. The finite element method is usually regarded as one of the most versatile and powerful technique in the design of electromagnetic devices. It is based on the numerical evolution of a variational expression usually on the free space wave number. The COMSOL Multiphysics is a powerful interactive environment for modeling and solving all kinds of scientific and engineering problems based on Finite Element Method (FEM). This Software can be used in many application areas, Such as: Acoustics, Bioscience, Chemical reactions, Geophysics, Diffusion, Fluid dynamics, Porous media flow, Electromagnetics and so on. The COMSOL Multiphysics provides a unique environment for the simulation of electromagnetic waves, Antennas, Waveguides, Cavity resonators in microwave engineering and optical fibers.COMSOL software is a powerful and interactive environment for modeling, simulating and solving. Scientific and engineering problems are based on partial differential equations (PDE). Those PDE’s will first have to be converted into the format required by COMSOL software before solving it using FEM. In fact, COMSOL Multiphysics is a powerful interactive environment for modeling and solving all kinds of scientific and engineering problems based on partial differential equations (PDEs).In the first part of This course we will cover overview of Finite Element Method (FEM) and comparison of Finite Element Method (FEM) to Finite Different Method (FDM) and Finite Integral Method (FIM), overview of Electromagnetic Waves and Maxwell EquationsIn the second part of this course we will cover Creating 2D and 3D Geometry Model, Specify Physics Setting, creating Meshing, compute the Solution, Post process and visualize in 2D and 3D results and finally Simulation of electromagnetic and Waveguide in 2D and 3D using COMSOL software.
Simulation by COMSOL Multiphysics software based on Finite Element Method
OBJECTIVES
Upon completion of this course, participants will be able to:
Simulation of EM waves and Rectangular Wave using Finite Element Method by COMSOL software.
WHO SHOULD ATTEND?
1. Associate Professor Dr Hassan Soleimani (UTP)
2. Dr. Amir Rostami
Dr. Amir Rostami is a Post-doctoral Researcher at Institute of Hydrocarbon Recovery, Universiti Teknologi PETRONAS. Amir is specialist in application of electromagnetic in a variety of fields, namely oil exploration, nanomaterial synthesis and characterization, and fibre optic sensors. He received bachelor’s degree in Solid State Physics in 2006 from university of Tabriz and obtained his master’s degree in Physics from Amirkabir University of Technology in 2010. He accomplished his knowledge in Molecular Dynamics modelling of nanostructures. In 2014 he joined Universiti Teknologi PETRONAS as a PhD candidate. He developed his proficiency in electromagnetic methods in oil and gas, using finite element method and method of moment. Amir obtained his PhD in Science in 2018.
*fee quoted does not include SST, GST/VAT or withholding tax (if applicable)
*fee quoted does not include SST, GST/VAT or withholding tax (if applicable)
Centre for Advanced & Professional Education (CAPE)
Level 16, Menara 2,
Menara Kembar Bank Rakyat,
50470, Jalan Travers,
Kuala Lumpur.
+605 - 368 7558 /
+605 - 368 8447
cape@utp.edu.my