COMSOL Day: Fluids & Heat
See what is possible with multiphysics simulation
Join us for a full-day online event focusing on the crucial physics of fluids and heat. You will have the opportunity to meet COMSOL technical staff and COMSOL users across many industries.
This event will feature presentations and demonstrations of COMSOL Multiphysics® simulations involving fluid flow and heat transfer. As this is a broad topic, the schedule is arranged with several parallel sessions, giving you the opportunity to choose from a range of talks, including specific applications like pipe flow and metal processing and more general issues like solving large CFD problems and nonisothermal flow.
We welcome both experienced COMSOL Multiphysics® users and those who are new to the COMSOL® software to attend. Feel free to invite your colleagues. View the schedule below and register for free today!
Please join us before the first presentation starts to settle in and make sure that your audio and visual capabilities are working.
To start, we will briefly discuss the format of the day and go over the logistics for using GoToWebinar.
The Application Builder is included in the COMSOL Multiphysics® software and allows you to transform your models into simulation apps controlled by interfaces appropriate for what is being simulated. This type of tool is unique to COMSOL Multiphysics® and will open up the world of simulation to all engineers, operators of processes, and scientists. This session will demonstrate the use of the Application Builder and how it can fundamentally augment how your organization approaches simulation.
This session will introduce you to modeling the multiphysics of phase transformations and quenching of metals like steel using COMSOL Multiphysics®. With the introduction of the Metal Processing Module to the COMSOL® software product suite, it is now much easier to model solid-state metallurgical phase transformations that are affected by and dependent on other physical phenomena, as well as the resulting material behavior of the transformed metal. In addition to covering the modeling of metallurgical phase transformations and hardening, the presentation will also introduce the new Carburization physics interface and new functionality for importing material properties.
In this session, we will discuss strategies for solving large CFD problems. A carefully designed mesh will not only lead to better accuracy but may also substantially reduce the solution time. Initializing the flow field with a simplified model often gives a great deal of information about mesh resolution and mesh-element alignment, and also the appropriate type of wall-layer modeling. For time-dependent problems, we will also give some hints on choosing an appropriate time step in the solver sequence.
Fluid flow and energy transport directly affect each other and should always be coupled to each, and solved together, when simulating their systems. During this session, we will describe how to simulate natural and forced convection and how to take into account classical effects such as pressure work, viscous dissipation, the Joule–Thomson effect, and more.
We will also show how to optimize computational performance and resources by using different modeling strategies with the corresponding built-in options available in COMSOL Multiphysics® (incompressible, weakly compressible, and compressible flow; the Boussinesq approximation; the ideal gas model; etc.) Finally, we will demonstrate how to check your solution using the mass and energy balances in a model.
Get a brief overview of using the Pipe Flow Module for fluid flow and mass transfer simulation within the COMSOL® software environment. We will also discuss multiphysics couplings for pipeline systems, such as heat transfer, erosion, and corrosion.
Radiative heat transfer is one of the three types of heat transfer and plays a major role in many applications. During this session, we will discuss different examples in order to help identify cases where thermal radiation has to be accounted for. Then, we will present the different physics interfaces for radiation modeling. Surface-to-surface radiation modeling capabilities will be described in detail. In particular, the options to define gray radiation and multiple spectral bands will be explored. Modeling radiation with different types of surfaces (diffuse, specular, and semitransparent) will also be presented.
Phase change plays an essential role in a wide variety of industrial processes, e.g., polymer manufacturing, metal casting, and freeze-drying. This session will focus on modeling a conjugate heat transfer problem with phase change. We will demonstrate how the phase transition can be modeled by a moving boundary interface according to the Stefan problem, and we will also explore other options to include phase change in your modeling with COMSOL Multiphysics®.
Flows, including multiple thermodynamic phases, are relevant in several industrial applications ranging from microfluidics, such as droplet transport and inkjet printing, to large-scale applications, such as fluidized beds or the simultaneous flow of oil, gas, and water through pipelines. In this session, we will explore the different classifications of multiphase flow and discuss which tools and features within COMSOL Multiphysics® can be used to solve different scenarios.
Most flows in real-world applications involve turbulence, e.g., flow past hydrofoils, flow in heat exchangers, HVAC systems, industrial-scale mixers, and pipe networks. In this session, we will discuss the turbulent flow modeling capabilities in COMSOL Multiphysics®, including RANS models, treating flow near walls, LES models, and common multiphysics couplings.
Mixers with rotating parts are used in many industrial processes, such as the production of consumer products, pharmaceuticals, food, and fine chemicals. This session will focus on modeling transport problems in mixers and stirred vessels. We will discuss flow in rotating machinery with both frozen rotor and sliding mesh methods, free surface modeling, and parametric geometry parts for mixing applications.
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