July 18, 2025 Chennai, Tamil Nadu 9:30 a.m.–5:05 p.m.

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COMSOL Day Chennai

See what is possible with multiphysics modeling

Join us for COMSOL Day Chennai to see firsthand how multiphysics simulation can benefit your work. Whether you are considering using COMSOL Multiphysics® in your organization and want to see how it works, or an existing user looking to catch the latest news, this event has something for you.

View the schedule below and register for free today.

Schedule

9:30 a.m.

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 evaluating and visualizing results.

10:00 a.m.

COMSOL Multiphysics® version 6.3 provides specialized new features for geometry creation, meshing, and CAD integration, improving the efficiency of model setup. Automatic detection and removal of small details and gaps in CAD models enable more robust mesh generation and efficient models. A new mesh element sizing algorithm ensures accurate resolution of geometric features. Physics-controlled meshing now supports imported STL files, and enhanced operations such as edge extrusion and revolutions improve flexibility in geometry creation. Additional new functionality includes virtual operations for face merging as well as easier swept meshing.

Important updates for the add-on products featuring CAD functionality include the ability to select specific components from assemblies, create variable radius and constant width fillets, and project edges to faces. For PCB design, users can now import component outlines and create plated vias, with added support for ECAD export in OASIS format.

Join this session to learn about the news for CAD, ECAD, and meshing in version 6.3.

10:30 a.m.
Keynote Speaker
10:55 a.m.
Tea Break
11:10 a.m.

COMSOL Multiphysics® version 6.3 introduces the new Electric Discharge Module for simulations of discharges in gases, liquids, and solids, as well as several new features and significant improvements to electromagnetics modeling.

These updates include capabilities for efficient modeling of laminated iron in motors and transformers and DQ excitation support, enabling common control strategies and key machine parameter calculations in electric motors. The release also introduces homogenized litz coil conductor modeling, accounting for strand count, DC resistance, and high-frequency loss. Additionally, electrostatic force calculations for MEMS devices are now more accurate, and new functionality enables the simulation of dielectric dispersion in biological tissues.

For transmission line modeling, version 6.3 offers RLGC parameter calculation, time-domain analysis, and a streamlined workflow for handling periodic structures in wave optics. In ray optics, users can now benefit from the automatic generation of spot diagrams and geometric modulation transfer function (MTF) plots. The release also enhances semiconductor device modeling with accurate leakage current calculations and introduces dedicated interfaces for nonisothermal plasma flow simulations.

Join this session to learn more about the latest updates for electromagnetics simulations.

11:50 a.m.
Keynote Speaker
12:15 p.m.

COMSOL Multiphysics® version 6.3 introduces a range of new features and improvements for electrochemical and chemical reaction engineering simulations. For battery design, the release includes a new two-electrode lumped model and single-particle electrode options, extending the capabilities for simplified and lumped model analysis of battery performance and behavior. Additionally, a demonstration app for analyzing battery test cycles features new functionality for time-dependent surrogate modeling. Furthermore, modeling of concentrated electrolytes in electrochemical cells is now available in all electrochemistry products.

In chemical reaction engineering, new capabilities for simulation of precipitation and crystallization enable users to model particle nucleation and growth while accounting for particle size distributions. A new tool for generating space-dependent models simplifies the setup of turbulent reacting flow simulations by automatically coupling turbulence, chemical species transport, and heat transfer.

Join this session to learn more.

12:55 p.m.
Break for Lunch
2:10 p.m.
Keynote Speaker
2:35 p.m.

COMSOL Multiphysics® version 6.3 introduces a range of new features for fluid flow and heat transfer modeling. Reynolds-stress turbulence models enable accurate simulations of secondary flows in ducts and flows with strong swirl or mean rotation, and a new kinetic energy option enhances simulations of high Mach number flows. Shear-induced migration in multiphase flow modeling supports applications such as particle fractionation and microfiltration. The new mixing plane functionality simplifies the modeling of pumps, turbines, and other rotating machinery. Additionally, the release introduces tools for simulating non-Newtonian flow in porous media.

Heat transfer modeling is extended with a repeating unit cell method for composites and porous media, alongside a forward ray-shooting technique for improved accuracy in external radiation. Performance improvements include faster surface-to-surface radiation simulations for large models and enhanced workflows for fast drying simulations using nonequilibrium moisture transport.

Join this session to learn more about the latest updates for fluid flow and heat transfer simulations.

3:15 p.m.
Keynote Speaker
3:40 p.m.
Tea Break
4:25 p.m.

COMSOL Multiphysics® version 6.3 introduces new capabilities and performance improvements for structural mechanics and acoustics simulations.

For structural mechanics, highlights include electromechanical modeling for shells and membranes, moisture-induced shrinkage and swelling simulations, and efficient tools for spot welds and fasteners. New interior boundary contact conditions eliminate the need for contact pairs, and viscoelastic time-domain simulations incorporate frequency-dependent material properties. Additional updates include geometry modeling for random particulate composites, a lattice geometry part library, and up to 50% faster plasticity computations, with added support for pressure-dependent plasticity in foams.

For acoustics, GPU acceleration enables time-explicit pressure acoustics simulations that are up to 25x faster. Time-domain modeling now supports frequency-dependent material properties, and the sequential linearized Navier–Stokes (SLNS) model provides faster thermoviscous acoustics computations. Updates also include tools for anisotropic poroacoustics modeling.

Join this session to learn more about the latest updates for structural mechanics and acoustics simulations.

Register for COMSOL Day Chennai

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For registration questions or more information contact info-in@comsol.com.

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COMSOL Day Details

Location

Radisson Blu Hotel, Chennai City Centre
Greams C-In, 2, .Ethiraj Salai, C Road, Egmore
Chennai, Tamil Nadu 600008
Directions

Invited Speakers

Chandrakant Deshmukh Mahindra & Mahindra

Chandrakant Deshmukh has a Master of Engineering degree in mechanical engineering from Shri Guru Gobind Singhji Institute of Engineering and Technology (SGGSIET), Nanded, and a Bachelor of Engineering in mechanical engineering from the University of Pune. He has more than 20 years of experience in automotive product development and has experience using simulation for the development of three-wheelers, cars, SUVs, and heavy commercial vehicles. He has expertise in multibody dynamics and its applications for computer-aided engineering (CAE) vehicle dynamics and durability. Currently, Deshmukh leads the methods development team at Mahindra & Mahindra. Previously, he worked for Bajaj Auto Limited and Ashok Leyland.

Dr. Nimmy Thankom Philip Danfoss Industries Pvt Ltd

Dr. Nimmy Thankom Philip is a simulation specialist at Danfoss Industries Pvt. Ltd. in Chennai. She is currently developing innovative methodologies for noise prediction in hydraulic machinery. Dr. Philip has a proven record of conducting comprehensive analyses in various engineering domains, including biofluid mechanics, structural vibration analysis, and offshore and subsea flow simulations. She holds a PhD from the Department of Applied Mechanics and a master's degree in ocean engineering from the Indian Institute of Technology Madras (IIT Madras).

Dr. Kothandaraman Ramanujam Indian Institute of Technology Madras (IITM)

Dr. Ramanujam Kothandaraman is a professor in the Department of Chemistry at the Indian Institute of Technology Madras (IITM). He received his PhD from the Indian Institute of Science (IISc), Bangalore, and his MSc from Anna University, Chennai. His expertise lies in applied electrochemistry, developing India-centric solutions for energy storage and conversion, including kilowatt-scale vanadium flow battery technology for Oil and Natural Gas Corporation Ltd. (ONGC) and a licensed modified Zn–Br2 battery for Archean Chemical Industries Ltd. His research interests also include soluble lead redox flow batteries, quinone-based organic redox flow batteries, and solid-state electrolytes for Li/Na-ion batteries.

Dr. Ramanujam is the recipient of numerous awards, including the Amara Raja Award in 2021, the India Energy Storage Alliance (IESA) Researcher of the Year in 2024, the Chemical Research Society of India (CRSI) Bronze Medal in 2023, the Society for Materials Chemistry (SMC-BARC) Bronze Medal in 2023, and the ASC-Masila Vijaya Award in 2024 for an innovative patent. He has more than 170 research articles, nine patents, and two technology transfers to his name, along with extensive sponsored and consultancy projects.