May 20, 2021 9:00 a.m.–4:30 p.m. CEST

Back to Events Calendar

COMSOL Day: Acoustics

See what is possible with multiphysics simulation

Join us for a full-day online event with a special focus on acoustics. You will have the opportunity to meet with COMSOL technical staff and customers from around the world, engage in product demonstrations, and gain insight into upcoming projects and focuses within acoustics research and industry.

Topics include the analysis of loudspeakers, ultrasound and non-destructive testing (NDT), microacoustics, room acoustics, vibrations, as well as convected acoustics. We will also address topics like optimization, meshing, and solving of large acoustic models. During the presentations you will be encouraged to ask questions. Engineers from COMSOL will be able to answer and present best practices.

Feel free to invite your colleagues. View the schedule below and register for free today!



To start, we will briefly discuss the format of the day and go over the logistics for using GoToWebinar.


During this session, you will get an introduction to the latest news and trends in acoustics simulation. We will also briefly discuss some of the future developments and ideas for the Acoustics Module.

Parallel Sessions
Introduction to the Acoustics Module

In this session, we will introduce key features within COMSOL Multiphysics® and the Acoustics Module and discuss how to solve the acoustic wave equation in order to model sound generation, propagation, absorption, and attenuation. The key features will be demonstrated by building a simple model, from applying the physics and properties of the system to the different ways to postprocess the results.


Acoustic propagation in structures with submillimeter physical features is common in the components of consumer products like mobile devices, protective grills of loudspeakers, hearing aids, and perforates used in mufflers and sound insulation. To model this accurately, you need to include thermoviscous losses in your definition of the physics. In this session, you will be introduced to modeling techniques used to capture these effects and how to model nonlinear effects in microacoustics systems.

Parallel Sessions
Room Acoustics

Acoustic propagation in rooms, halls, car cabins, and other enclosed yet definitive spaces falls within the field of room acoustics. In this session, you will learn how acoustic behavior and response from the features in a room can be modeled in COMSOL Multiphysics® using both ray tracing and full-wave models, in some cases combined with each other. This feature is useful when defining submodels of, for example, a treated wall or absorber, in order to compute the angle-dependent absorption, which is then used in a ray tracing model for the room as a whole.

Convected Acoustics

The analysis of acoustic phenomena in the presence of background mean flow is often referred to as convected acoustics or flow-borne noise. Applications include jet engine noise, mufflers, and perforates, all including the presence of a background flow. This session will introduce the aeroacoustics capabilities of COMSOL Multiphysics® and demonstrate examples of convected acoustics.

Break for Lunch

Speakers TBA

Parallel Sessions
Ultrasound and NDT

A large number of applications involve the modeling of ultrasonic wave propagation in fluids and solids. This includes nondestructive testing (NDT), flowmeters, and ultrasound equipment in medical processes. During this session, you will be introduced to strategies for modeling such phenomena in COMSOL Multiphysics®, from the behavior of piezoelectric transducers to the nonlinear propagation of finite-amplitude ultrasonic waves in fluids.

Meshing for Acoustics

In many cases when defining an acoustics model, you follow some basic guidelines to apply an appropriate mesh based on the physics being modeled. However, in complex systems, when resolving geometries is a determining factor, specific techniques should be used. In this session, you will be introduced to such techniques for the meshing challenges associated with different kinds of acoustics models in complex geometries.

Parallel Sessions

The design and optimization of loudspeakers is a challenging multiphysics problem that requires various numerical approaches, depending on the accuracy required and the complexity of the system. This can range from lumped electroacoustics models in the frequency domain to nonlinear transient analyses of total harmonic distortion. In this session, you will receive insight into the modeling techniques available for loudspeaker simulations as well as appropriate postprocessing tools that provide you with a fully virtual testing environment.

Solvers and Solving Large Models

When solving large acoustics models, it can be beneficial to tune the solvers by considering performance, stability, and memory consumption. A good strategy with respect to meshing and other modeling options is also important. This session will illustrate the process, from choosing one of the predefined solver suggestions in COMSOL Multiphysics® as a starting point to determining how the solver settings can be manipulated and tuned for robust modeling of acoustics phenomena.

Parallel Sessions
Noise and Vibration

Noise and vibration analysis covers areas from ground-borne noise and noise generated by machinery to the analysis of feedback in electroacoustics applications. The physics involved in such applications deal with the combined propagation and interaction of elastic waves in structures and pressure waves in fluids. In this session, you will learn how to model these phenomena through several examples and demonstrations.

Multimethods in Acoustics

Sound and audio phenomena covers large ranges in both wave propagation and wavelength. In order to model all acoustics-based applications, the Acoustics Module uses different numerical methods depending on the application or problem at hand. Some methods are coupled implicitly by the numerical algorithm within COMSOL Multiphysics®, such as the finite element method to the boundary element method, while others require a more manual approach, such as coupling the finite element method to ray approximations. This session will introduce the settings, features, and strategies required to apply both methods.

Concluding Remarks

COMSOL Speakers

Mads J. Herring Jensen
Mads Herring Jensen joined COMSOL in 2011 and is the technology manager for the acoustics products. Mads has a PhD in computational fluid dynamics from the Technical University of Denmark. Before joining COMSOL, he worked in the hearing aid industry for five years as an acoustic finite element expert.
Kirill Shaposhnikov
Kirill Shaposhnikov works at COMSOL as a development engineer in the acoustics group. He has a degree in applied mathematics from South-Russian State Polytechnic University and a PhD in mechanical engineering from the Vienna University of Technology. His interests focus on applied mathematics, mathematical physics, and numerical analysis.
Thure Ralfs
Thure Ralfs is the managing director of COMSOL's Danish office. Before joining COMSOL in 1997, he worked with various technical software. Thure has an MSc and MBA from the Technical University of Denmark.
James Gaffney
James Gaffney works at COMSOL as an applications engineer for acoustics. He studied acoustical engineering at the University of Southampton, where he also earned his doctorate degree. His research involved predicting the fuselage installation effects from engine fan tones with analytical methods.
Jacob Yström
Jacob Yström is the technology manager of numerical analysis at COMSOL. He has been the lead developer for the solver technology at COMSOL since 2005. He received his PhD in numerical analysis from the Royal Institute of Technology, Stockholm.

Join COMSOL Day: Acoustics

Log in or sign up to register. A COMSOL Access account is required to attend COMSOL Day: Acoustics.
Forgot your Password?
You have successfully logged in. This page will refresh to complete your event registration.
You have successfully created a new COMSOL Access account. This page will refresh to complete your event registration.

COMSOL Day Details

Local Start Time:
May 20, 2021 | 9:00 a.m. CEST (UTC+02:00)
My Start Time:
Select time zone below: