Comsol mass transfer module You can even modify them for custom requirements. Using the physics interfaces in this module along with the inherent multiphysics capabilities of COMSOL How the Porous Media Flow Module Helps Improve Your Modeling The Porous Media Flow Module is an optional package that extends the COMSOL Multiphysics modeling environment with customized physics interfaces and functionality optimized for the analysis of transport processes in porous media. This guide describes the Pipe Flow Module, an optional add-on package for COMSOL Multiphysics® designed to model and simulate incompressible and weakly compressible flow, heat, and mass transfer in pipes and channels with the Pipe Flow features. New physics represented include heating from radiogenic Welcome to our full tutorial on Heat Transfer and Phase Change using COMSOL Multiphysics! 🧊🔥 In this in-depth guide, we study into the fascinating world of thermodynamics and explore the The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space and time. The module is designed to perform transient analyses of processes involving metallurgical (solid-solid) phase transformations in, mainly, steels. 25 Common Physics Interface and Feature Settings and Nodes . What Can the Fuel Cell & Electrolyzer Module Do? The Fuel Cell & Electrolyzer Module extends the COMSOL Multiphysics environment with customized physics interfaces for modeling of fuel cells and electrolyzers. 2 includes the Menter shear stress transport (SST) turbulence model, improved functionality and performance for orbital thermal loads and surface-to-surface radiation, and a new Thermal Connection feature. COMSOL Multiphysics® was used in solving the set of partial, ordinary and algebraic equations. These application modes come with their own graphical user interfaces that make it quick and easy to access their power. The modeled biomass is a spherical centimeter-sized wood particle with anisotropic heat and mass transfer properties. Porous Media Flow Module Overview Porous media exist in many natural and man-made systems, and the need for advanced porous media modeling spans many industries. The geometry and material A comprehensive mathematical model that includes mass and heat transfer was developed for the transport of gas mixture of carbon dioxide and methane through hollow fiber membrane (HFM) contactor. Read about these updates and more below. It ha s several interfaces to model chemical reaction kinetics: mass transport in dilute, concentrated, and electric potential-affected solutions; laminar and porous media flows In the limit of Ts=Tg, Eqs. The fluid properties provided are often dependent on temperature or temperature and pressure as well as on time and space. You can use the Transport of Diluted Species interface to model transport of a diluted species in chemical systems by convection and We used COMSOL Multiphysics ® simulation software to model mass flow calorimetry in a metal-hydride chemisorption reaction. The fluid properties provided are often dependent on either temperature, or temperature and pressure, as well as time and space. These physics interfaces provide tools for building detailed models of the configuration of the various parts constituting electrochemical energy converters. With COMSOL Multiphysics ® and the add-on Heat Transfer Module, you can simulate conjugate heat transfer with laminar flow or turbulent flow. The following sections highlight several representative use cases. The Scope of the Liquid & Gas Properties Module The Liquid & Gas Properties Module provides tailor-made functionality for specifying properties of liquids and gases used in the modeling of fluid flow, energy transport, and mass transfer. Using the physics interfaces in this module along with the inherent multiphysics capabilities of COMSOL With COMSOL Multiphysics ® and the add-on Heat Transfer Module, you can simulate conjugate heat transfer with laminar flow or turbulent flow. 30 Mass Transfer Use the Mass Transfer node to include mass transfer from the dispersed phase to the continuous phase. Browse them here. For users of the Heat Transfer Module, COMSOL Multiphysics ® version 6. The model tutorial solves a conjugate heat transfer problem from the field of electronic cooling, but the principles are applicable to any Why Heat Transfer Is Important to Modeling . As a porous media is made up of a solid matrix filled with a fluid, heat is transported at different rates through the two types of media. It has several interfaces to model chemical reaction kinetics; mass transport in dilute, concentrated and electric potential Jan 14, 2015 · What Is Mass Transfer? Fluid Flow, Heat Transfer, and Mass Transport Mass Transfer Understanding Mass Transfer Mass transfer describes the transport of mass from one point to another and is one of the main pillars in the subject of Transport Phenomena. Instead of creating a temperature rise, the energy alters the material’s molecular structure. 26 How the Heat Transfer Module Improves Your Modeling . It allows to combine this flow with other phenomena, such as poroelasticity, heat transfer, chemistry, and electromagnetic fields. Experiments with non-reactive control samples found heat losses that can possibly be attributed to surface Introducing the Chemical Reaction Engineering Module The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space and time. In this section: • Predefined Variables • Global Variables • Domain Fluxes • Boundary Fluxes What Can the Electrochemistry Module Do? The Electrochemistry Module extends the COMSOL Multiphysics environment with customized physics interfaces for modeling of electrochemical cells, with tools for building detailed models of the configuration of electrodes and electrolyte. It includes physics interfaces to model electromechanics (used for modeling electrostatically actuated structures), solid mechanics, piezoelectricity, piezoresistivity, and electrical circuits (which This model example investigates the transport of reactants and water in a high temperature PEMFC. It has several interfaces to model chemical reaction kinetics: mass transport in dilute, concentrated, and electric potential The Use of the Plasma Module The Plasma Module provides advanced capabilities for simulating a wide range of plasmas, plasma reactors, and plasma-related surface processes relevant to both scientific research and engineering applications. About the MEMS Module The MEMS Module is a collection of physics interfaces for the simulation of MEMS devices. 40 How the Heat Transfer Module Improves Your Modeling The Heat Transfer Module has been developed to greatly expand upon the base capabilities available in COMSOL Multiphysics. COMSOL Multiphysics also has tools to model the transport and reactions of concentrated species, but the Chemical Reaction Engineering Module is The Level Set Method Fluid flow with moving interfaces or boundaries occur in a number of different applications, such as fluid-structure interaction, multiphase flows, and flexible membranes moving in a liquid. 42 This guide describes the Pipe Flow Module, an optional add-on package for COMSOL Multiphysics® designed to model and simulate incompressible and weakly compressible flow, heat, and mass transfer in pipes and channels with the Pipe Flow features. COMSOL Multiphysics itself is very powerful and, with sufficient Oct 14, 2015 · Learn how to compute mass conservation and energy balance to ensure the accuracy of your COMSOL Multiphysics simulations. Using a reaction chamber with 100W input, we measured the temperature of flowing water in contact with the chamber and calculated the heat output of our reaction. 27 Common Physics Interface and Feature Settings and Nodes . The Heat Transfer Module add-on to COMSOL Multiphysics® includes tools for analyzing heat transfer by conduction, convection, and radiation. It has several interfaces to model chemical reaction kinetics, mass transport in dilute, concentrated and electric potential-affected solutions, laminar This is done automatically in the Moist Air feature and subfeature in the Heat Transfer interface. It combines physics interfaces for fundamental processes and links to COMSOL Multiphysics and the other To receive technical support from COMSOL for the COMSOL products, please contact your local COMSOL representative or send your questions to support@comsol. The Heat Transfer Module includes a comprehensive set of features for investigating thermal designs and effects of heat loads. The physics interfaces build on conservation laws for momentum, mass, and energy. Introduction The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space, time, and each other. For details about the boundary fluxes settings, see Computing Accurate Fluxes in the COMSOL Multiphysics Reference Manual. This introduction fine-tunes your COMSOL Multiphysics® modeling skills for heat transfer simulations. You can use the Transport of Diluted Species interface to model transport of a diluted species in chemical systems by convection and The smoothing can provide a more well-behaved flux value close to singularities. Learn how to use the Heat Transfer Module to analyze conduction, convection, and radiation with these tutorial models. The Porous Media Flow Module extends the COMSOL Multiphysics modeling environment to the quantitative investigation of mass, momentum, and energy transport in porous media. Add the Electrodeposition Module to COMSOL Multiphysics® to simulate cell geometry, electrolyte composition, current distribution, and more. The default unit of the dependent variable is the molar concentration, but other units can be used, such as mass density or number density. The earth makes up a giant laboratory filled with an unlimited array of basic physics Heat Transfer Module Updates For users of the Heat Transfer Module, COMSOL Multiphysics ® version 5. These laws are expressed in terms of partial differential equations, which are solved by the module together with the specified initial and boundary conditions. The application takes into account heat transferred through both convection and conduction. The Value type when using splitting of complex variables setting should in most pure mass transfer problems be set to Real, which is the default. The module combines physics interfaces for fundamental processes and links to COMSOL Multiphysics and the other modules for structural mechanics and electromagnetics analyses. 3 introduces new capabilities, including a nonequilibrium formulation for moisture transport in porous media, a user-defined orbit feature for simulating orbital thermal loads, and homogenization methods for material properties in heat transfer analysis. com/sla) and may be used or copied only under the terms of the license agreement. m. Oct 12, 2010 · Mass transfer + turbulence module Posted Oct 12, 2010, 11:37 p. 30 Introducing the Chemical Reaction Engineering Module The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space and time. Product Suite Porous Media Flow Module Porous Media Flow Module Model Mass, Momentum, and Energy Transport in Porous Media Analyze complex porous media structures found in many natural and artificial systems with the Porous Media Flow Module, an add-on to the COMSOL Multiphysics ® software. In this tutorial, we demonstrate how to model mass transfer by diffusion in a rectangular domain using COMSOL Multiphysics. The module supports simulations of plasmas sustained by various types of electromagnetic Why Heat Transfer Is Important to Modeling . 24 How the Heat Transfer Module Improves Your Modeling . 3 brings improved mass transfer setup, modeling of relative permeabilities, and more to the Subsurface Flow Module. The Porous Media Flow Module includes functionality for modeling single-phase flow in porous media Porous Media Flow Module COMSOL Multiphysics ® version 5. The specific models from the applications library used for e hancing students learning are (a) shell and tube heat exchanger and (b) flow past a cylinder. Heat transfer in porous media comes in two flavors. Simulate systems containing fluid flow alone and coupled to other physical phenomena. COMSOL Multiphysics® 6. https://w Why CFD Is Important for Modeling . As the input term for water vapor, the relative humidity w from the moisture transport equation is used in the Heat Transfer and Fluid Flow interfaces. This step-by-step guide covers ge This Heat Transfer Module User’s Guide gets you started with modeling heat transfer using COMSOL Multiphysics. The information in this guide is specific to this module. It has several interfaces to model chemical reaction kinetics: mass transport in dilute, concentrated, and electric potential Drying of porous media is an important process in the food and paper industry among others. 3a to obtain the moisture content and mass fraction of vapor. Domain Level Synchronization Introduction The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space, time, and each other. Heat transfer is involved in almost every kind of physical process, and can in fact be the limiting factor for many processes. To learn about modeling heat transfer in COMSOL Multiphysics® and see a full modeling demonstration within the software, watch this webinar recording. The Porous Media Flow Module extends the COMSOL Multiphysics modeling environment to the quantitative investigation of mass, momentum and energy transport in porous media. In this video, we modelled a system of mass transfer with reaction (catalyst). The interfaces include In this article, we demonstrate how to couple the physics between multiple model components in COMSOL®. Heat Transfer Module Updates For users of the Heat Transfer Module, COMSOL Multiphysics ® version 6. The model includes mass and momentum transport phenomena in the flow channels, gas diffusion layers (GDLs), and porous electrodes, as well as electrochemical currents in the GDLs, the porous electrodes, and the polymer membrane. It has a number of physics interfaces to model chemical reaction kinetics, mass transport in dilute, concentrated How the Porous Media Flow Module Helps Improve Your Modeling The Porous Media Flow Module is an optional package that extends the COMSOL Multiphysics modeling environment with customized physics interfaces and functionality optimized for the analysis of transport processes in porous media. Introduction This guide describes the Subsurface Flow Module, an optional add-on package that extends the COMSOL Multiphysics® modeling environment with customized physics interfaces for modeling fluid flow below the ground level or in porous media in general. 2 of the Chemical Reaction Engineering Module. A certain contour line of the globally defined function, the level set function, then represents the interface between To receive technical support from COMSOL for the COMSOL products, please contact your local COMSOL representative or send your questions to support@comsol. PDT 0 Replies Kim Daehun Send Private Message Flag post as spam Introduction The Pipe Flow Module is an optional add-on package for COMSOL Multiphysics designed to model and simulate fluid flow, heat, and mass transfer in pipes and channels. Heat Transfer Module Updates For users of the Heat Transfer Module, COMSOL Multiphysics ® version 5. where, ρ (SI unit: kg/m 3) denotes the mixture density and u (SI unit: m/s) the mass averaged velocity of the mixture. Read about these heat transfer features and more below. Many physical effects must be considered: fluid flow, heat transfer with phase change, and transport of participating liquids and gases. How the Heat Transfer Module Improves Your Modeling The Heat Transfer Module has been developed to greatly expand upon the base capabilities available in COMSOL Multiphysics. A key result from this study is the prediction of fast mass transfer in comparison to electrode kinetics, which is useful in determining the optimal loading of electroactive material in battery cells. One way to track moving interfaces is to use a level set method. The Application Libraries window contains tutorials as well as industrial equipment and device benchmark applications for verification and validation. View the specification chart to find your ideal combination. The remaining variables are specific for each of the species, i, being described by the mass transfer equation: • ω i is the mass fraction (1) • j i (SI unit: kg/ (m 2 ·s)) is the mass flux relative to the mass averaged velocity, and • The Porous Media Flow Module extends the COMSOL Multiphysics modeling environment to the quantitative investigation of mass, momentum and energy transport in porous media. Simulations can be run for transient and steady conditions in How the Heat Transfer Module Improves Your Modeling The Heat Transfer Module has been developed to greatly expand upon the base capabilities available in COMSOL Multiphysics. Heat exchangers of this type are found in lab-on-chip devices in biotechnology and microreactors, for example for micro fuel cells. An automatic notification and a case number are sent to you by email. The coupled Electromagnetic and Transport Model developed above was solved in COMSOL Multiphysics® 4. 6 includes directional dependent surface properties for surface-to-surface radiation, a new Porous Medium feature, and a Phase Change Interface boundary condition. Learn how to use the Chemical Reaction Engineering Module to model chemical reactors, mixers, and more. comsol. The transport velocity field and the density must be defined so that mass is conserved locally. Introducing the Chemical Reaction Engineering Module The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space and time. The Plasma Module is a specialized tool for modeling non-equilibrium discharges, which occur in a wide range of engineering disciplines. 32 You can perform vacuum system modeling using COMSOL Multiphysics ®. It has a range of tools to address the specific challenges of modeling microsystems. In this article, we provide a comprehensive introduction to single-phase flow, conjugate heat transfer modeling. com. The equations are solved using stabilized finite element formulations for fluid flow, in combination with damped Newton methods and, for time-dependent The organization of the course, its aims, the priorities of the exercises and the assessment of the students’ performance are explained with the aid of three examples. 36 The Heat Transfer Module Study Capabilities . 30 How the CFD Module Helps Improve Your Modeling . When a Heat Transfer and a Chemistry interface are selected, use this coupling to simulate heat transfer additionally to mass transport and reactions. Introduction The Heat Transfer Module is used by product designers, developers, and scientists, who use detailed geometrical descriptions to study the influence of heating and cooling in devices or processes. Physics interfaces that address laminar flow, multiphase flow, flow in porous media, and moderately rarefied flow (the Slip Flow interface) are available. 34 Additional Materials Database . To assist users at all levels of expertise, this module comes with a library of ready-to-run examples that appear in the companion Heat Transfer Module Applications Libraries. Mass transfer may take place in a single phase or over phase boundaries in multiphase systems. Enhanced capabilities to treat chemical reactions between dilute species are also included. If the heat exchange between fluid and matrix occurs practically instantly — on the time scale considered, i. Why Plasma is Used in Modeling Low-temperature plasmas represent the amalgamation of fluid mechanics, reaction engineering, physical kinetics, heat transfer, mass transfer, and electromagnetics. The module supports all fundamental mechanisms including conductive, convective, and radiative heat transfer. Introduction The Subsurface Flow Module extends the COMSOL Multiphysics modeling environment to the quantitative investigation of geophysical and environmental phenomena. See the Heat Transfer Module User’s Guide for the governing equations. 28 How the CFD Module Helps Improve Your Modeling . It has a number of physics interfaces to model chemical reaction kinetics, mass transport in dilute, concentrated The Porous Media Flow Module User s Guide Learn about the capabilities in COMSOL® and its Subsurface Flow Module add-on for modeling fluid flow in porous media, fractures, and channels, and more. Customize COMSOL Multiphysics to meet your simulation needs with application-specific modules. Compressible hydraulic transients and acoustic waves can also be modeled using the Water Hammer interface and Pipe Acoustics interface, respectively. Add the Chemical Reaction Engineering Module to COMSOL®. In this previously held webinar, you will get an introduction to the software's functionality for vacuum system simulation. This add-on module allows you to model mass, momentum, and energy transport in porous media. Using the physics interfaces in this module along with the inherent multiphysics capabilities of COMSOL Model species transport and chemical reactions to understand and optimize processes and designs. 34 The Heat Transfer Module Study Capabilities . Mass Transfer Select a Mass transfer model — User defined (the default), Nonequilibrium model, or Two-film theory . 5 includes a new Lumped Thermal System interface, multiple spectral bands for the Radiation in Participating Media and Radiation in Absorbing-Scattering Media interfaces, and open boundary condition improvements. Using the physics interfaces in this module along with the inherent multiphysics capabilities of COMSOL Mass Transfer from a Thin Domain This model is licensed under the COMSOL Software License Agreement 6. It also demonstrates how to generate a fully developed flow field when you know the mass flow rate but not the pressure drop. (10-14) are the same equations as given in a combined Heat Transfer in Solids and Porous Media COMSOL module that is set up with heat sources and out-of-plane convective heat flux nodes. All of these effects are strongly coupled, and predefined interfaces can be used to model these effects in an hygroscopic porous medium with COMSOL Multiphysics. The Subsurface Flow Module is used in the quantitative investigation of geophysical and environmental phenomena, especially within the area of subsurface flow. When modeling To receive technical support from COMSOL for the COMSOL products, please contact your local COMSOL representative or send your questions to support@comsol. Examples for download. . Heat consumed or released by a phase change affects fluid flow, magma movement and There are many COMSOL Multiphysics®-based textbooks and guides written for students, professors, and engineering professionals alike. It has several interfaces to model chemical reaction kinetics, mass transport in dilute, concentrated and electric potential-affected solutions, laminar his guide describes the Metal Processing Module, an optional add-on package for the COMSOL Multiphysics®simulation software. When a material changes phase, for instance from solid to liquid, energy is added to the solid. When modeling mixtures with Why CFD Is Important for Modeling . Learn more. A lot of this occurs through chemical reactions, although separation and other unit operations are an important part. 31 Where Do I Access the Documentation and Application Libraries?. 29 Where Do I Access the Documentation and Application Libraries?. It combines physics interfaces for fundamental processes and links to COMSOL Multiphysics and the other The Scope of the Liquid & Gas Properties Module The Liquid & Gas Properties Module provides tailor-made functionality for specifying properties of liquids and gases typically used in the modeling of fluid flow, energy transport and mass transfer. 25 The Heat Transfer Module Physics Interface Guide . This 18-minute archived webinar includes a quick introduction to the COMSOL Multiphysics ® modeling workflow for heat transfer analysis. When modeling mixtures with an applied Transport Phenomena course that involves simulations using COMSOL Multiphysics®. It combines physics interfaces for fundamental processes and links to COMSOL Multiphysics and the other Learn how to use the Chemical Reaction Engineering Module to model chemical reactors, mixers, and more. COMSOL Multiphysics ® version 5. The model tutorial solves a conjugate heat transfer problem from the field of electronic cooling, but the principles are applicable to any This guide describes the Pipe Flow Module, an optional add-on package for COMSOL Multiphysics® designed to model and simulate incompressible and weakly compressible flow, heat, and mass transfer in pipes and channels with the Pipe Flow features. Additionally, the Fluid Flow module, Heat Transfer module, an Introduction The Pipe Flow Module is an optional add-on package for COMSOL Multiphysics designed to model and simulate fluid flow, heat, and mass transfer in pipes and channels. There are specialized physics interfaces for the most common Use the Reacting Flow () multiphysics coupling to simulate mass transport and reactions in a gas or liquid mixture where the fluid flow can be dependent on the mixture composition. Learn the basics of modeling heat transfer via conduction, convection, and radiation in the COMSOL Multiphysics ® software. Using the physics interfaces in this module along with the inherent multiphysics capabilities of COMSOL Introduction This application simulates the fluid flow and heat transfer in a micro heat exchanger of cross-flow type made of stainless steel. The combination of COMSOL ® products required to model your application depends on several factors and may include boundary conditions, material properties, physics interfaces, and part libraries. This chapter introduces you to the capabilities of the Metal Processing Module and includes a summary of the physics The Porous Media Flow Module extends the COMSOL Multiphysics modeling environment to the quantitative investigation of mass, momentum and energy transport in porous media. See examples and a tutorial video here. Why CFD Is Important for Modeling . 5 introduces the new Porous Media Flow Module. The interface supports simulation of transport by diffusion in 1D, 2D, and 3D as well as in axisymmetric components, in 1D and 2D. Mass transfer is an important part of chemical engineering because this field considers the conversion of one type of substance into another. Combine the COMSOL Multiphysics® software and the add-on CFD Module. Introduction This example demonstrates how to model a phase change and predicts its impact on a heat transfer analysis. The coupling feature also support mass transfer (solute extraction) between the phases. A The Moving Mesh Interface (described in the COMSOL Multiphysics Reference Manual) can be used to account for model deformation. 39 Where Do I Access the Documentation and Application Libraries?. When modeling How the Porous Media Flow Module Helps Improve Your Modeling The Porous Media Flow Module is an optional package that extends the COMSOL Multiphysics modeling environment with customized physics interfaces and functionality optimized for the analysis of transport processes in porous media. e. Modeling multiple species transport is possible, whereby the physics interface solves for the selected quantity of each species. This model example investigates the steady-state transport of reactants and water in a cell including both anode and cathode mass and momentum transport phenomena in the flow channels, gas diffusion layers (GDLs) and gas diffusion electrodes (GDEs), as well as electrochemical currents in the GDLs, the GDEs and the polymer membrane. The Dispersed Two-Phase Flow, Diluted Species () multiphysics coupling is used to simulate the fluid flow of a liquid containing a dispersed phase, together with mass transport occurring in the continuous phase and the dispersed phase. This Documentation and the Programs described herein are furnished under the COMSOL Software License Agreement (www. both temperatures can be assumed to be identical. This includes a look at the Molecular Flow Module, Microfluidics Module, and Particle Tracing Module, all add-on products to the COMSOL Multiphysics ® software that provide expanded features and The smoothing can provide a more well-behaved flux value close to singularities. Learn more about the specialized features for heat transfer analysis available in the Heat Transfer Module here. Keywords: mass and heat transfer, chemical reactions, fluid mechanics, Comsol Multi-physics, education. 41 Where Do I Access the Documentation and Application Libraries?. Thus there is a thermal equilibrium, and May 9, 2024 · Momentum, heat, and mass transfer equations in three dimensions were coupled and solved using the finite volume method by the Comsol Multiphase® software, and the effects of feed and permeate flow rates, number of fibers, and fiber length on DCMD performance are examined. May 7, 2024 · This model includes parameter estimation, functionality for defining multiple objectives from experimental data, and a range of solvers — all capabilities introduced in version 6. 0. 27 The Heat Transfer Module Physics Interface Guide . The equations are solved using stabilized finite element formulations for fluid flow in combination with damped Newton methods and, for time-dependent The smoothing can provide a more well-behaved flux value close to singularities. The Scope of the Chemical Reaction Engineering Module The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space, time, and each other. When modeling mixtures with Heat Transfer Module Updates For users of the Heat Transfer Module, COMSOL Multiphysics ® version 5. 36 Additional Materials Database . The models illustrate the application modes specific to the Heat Transfer Module, application modes unavailable in the base COMSOL Multiphysics package. The Pipe Flow Module can address problems involving flow velocity The Pipe Flow Module, an add-on product to COMSOL Multiphysics ®, is used for simulating fluid flow, heat and mass transfer, and acoustics, as well as the mechanical behavior of pipes. It is designed for researchers, engineers, developers, teachers, and students, and it suits both single-physics and multiphysics modeling. If you would like to see more videos, please subscribe to our channel. Check out this article to see a series of videos on how to model conjugate heat transfer in COMSOL Multiphysics®. You can use the Transport of Diluted Species interface to model transport of a diluted species in chemical systems by convection and For the Heat Transfer in Porous Media interface, with the addition of interfaces from the Batteries & Fuel Cells Module, Corrosion Module, or Electrodeposition Module, heat sources from the electrochemical current distribution interfaces are available. It has several interfaces to model chemical reaction kinetics, mass transport in dilute, concentrated and electric potential-affected solutions, laminar How the Porous Media Flow Module Helps Improve Your Modeling The Porous Media Flow Module is an optional package that extends the COMSOL Multiphysics modeling environment with customized physics interfaces and functionality optimized for the analysis of transport processes in porous media. Examples include processes in fuel The Scope of the Liquid & Gas Properties Module The Liquid & Gas Properties Module provides tailor-made functionality for specifying properties of liquids and gases used in the modeling of fluid flow, energy transport, and mass transfer. Analyze heat transfer by conduction, convection, and radiation with the Heat Transfer Module, an add-on product to the COMSOL Multiphysics ® simulation platform. To analyze the stresses and deformation in the pipes, the Pipe Introduction The Chemical Reaction Engineering Module is tailor-made for the modeling of chemical systems primarily affected by chemical composition, reaction kinetics, fluid flow, and temperature as functions of space, time, and each other. To receive technical support from COMSOL for the COMSOL products, please contact your local COMSOL representative or send your questions to support@comsol. The following example demonstrates how to model a conjugate heat transfer problem with COMSOL Multiphysics, using the Turbulent Fluid-Thermal Interaction predefined multiphysics coupling from the Heat Transfer Module. Suggested Content KNOWLEDGE BASE Running COMSOL Multiphysics in an IPv6 Environment BLOG How to Use the v2-f Turbulence Model in the CFD Module KNOWLEDGE BASE Using Symmetries in COMSOL Multiphysics FORUM Mass transfer stuck in one domain KNOWLEDGE BASE My Flux Calculation Seems Wrong How the Heat Transfer Module Improves Your Modeling The Heat Transfer Module has been developed to greatly expand upon the base capabilities available in COMSOL Multiphysics. The physics interfaces include descriptions of the electrochemical reactions and the transport properties that In this final part of our course on modeling plasma using COMSOL Multiphysics ® and the Plasma Module, we talk about how the Plasma interface can be combined with Fluid Flow and Heat Transfer interfaces to model background gas flow and heating as well as simulate heat transfer in the materials surrounding a plasma. It has modeling tools for the simulation of all mechanisms of heat transfer including conduction, convection, and radiation.