Last updated 3/2022
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 599.67 MB | Duration: 1h 36m
Lithium Air Battery Simulation in COMSOL Multiphysics. 1D simulation multiphysics for battery & energy storage use
What you’ll learn
COMSOL Multiphysics
Simulation
Advanced Multiphysics Simulation
Lithium battery
Air Battery
Energy Storage Simulation
COMSOL Advanced Simulation
Requirements
COMSOL Basic Knowledge is preferred
Absolute Beginner might find it a bit difficult
Description
Welcome to this course!This course is on 1D Lithium-Ion Battery Multiphysics Simulations.In this course, you will learn advanced Lithium Battery Simulations using multiple Physics interfaces. This course will explain how to actually work with complicated simulations such as a battery.If you are totally new, I would suggest first complete our course on "Learn COMSOL Multiphysics simulation: Basics to Advanced" as this is a bit advanced course, even though I tried to explain it as easy as possible.About the Instructor. am I ready to instruct others?I have instructed more than 5000 students till the year 2021, across 105 countries.I have publications in top journals like Nature Materials where I have modelled devices in council multiphysics.Till 2021 I have 17 international publications almost all containing some of the other modelling and simulation involving finite element simulation or DFT simulation or analysis using Matlab Python or Simulink.I am the author of the best-selling COMSOL courses on Udemy.___________________________________________________________________________________Lithium-ion batteries have become the most common rechargeable batteries for consumer electronics and automotive applications due to their high energy densities, decent power density, relatively high cell voltages, and low weight-to-volume ratios.Brief feature of this course:1D simulation of Complex Lithium-Ion battery Simulation.The files and parameter values so that you can watch and prepare your own model.Basic understanding of how to actually do simulations.HIGH-QUALITY lecturesBattery Simulation is a demanding topic in Energy Storage and Next Generation Energy Demand. Rechargeable lithium-air batteries have recently attracted great interest mainly due to their high energy density. A unit cell of a lithium-air battery typically consists of a thin lithium sheet as the negative electrode, a porous carbon electrode filled with oxygen/air as the positive electrode, and a separator material between the electrodes. The organic electrolyte used consists of a dissolved lithium salt in an aprotic solvent. The oxidation of lithium at the anode and reduction of oxygen at the cathode induces a current flow.In this battery simulation course, the discharge of a lithium-air battery is simulated using the Lithium-Ion Battery interface. The transport of oxygen (from external air) in the porous carbon electrode is modelled using the Transport of Diluted Species in Porous Media interface in COMSOL Multiphysics. The electrochemical reaction of oxygen reduction in the carbon electrode leads to changes in the concentration of the reaction product and electrode porosity. In this example, model analysis is done for a range of discharge current densities. A comparison of the oxygen concentration, porosity, and film thickness in the positive electrode at low and high discharge current densities is done to understand their effect on the cell voltage profiles. This model can be used for studying the performance of lithium-air batteries and for providing insights toward cell design.Note that this is a very specific simulation course which is good to get an idea of how battery simulation is actually done. Consider this as a starting point in the simulation of batteries. After trying out the 1D simulation, you can try out how you can implement the same idea in 2D and 3D. The course is prepared with the help of the Official COMSOL simulation model and documentations.
Overview
Section 1: Setting Up Model
Lecture 1 Introduction
Section 2: Add parameters from a file
Lecture 2 Add parameters from a file
Section 3: Learn to Create 1D Geometry
Lecture 3 Learn how to Create 1D Geometry using Interval Feature
Section 4: Add variables in COMSOL Model from text file
Lecture 4 Learn to add variables in COMSOL Model from text file
Section 5: Learn to add Lithium Ion Physics
Lecture 5 Learn to add seperator in a Battery Model
Lecture 6 Learn to add Porous Electrode
Lecture 7 Learn Porous Electrode Reaction
Lecture 8 Learn to setup up Electrode Surface and Electrode Current Density
Lecture 9 Learn to Add initial values in the model for Lithium ion physics
Section 6: Learn to add physics: Transport of Diluted Species in Porous Media
Lecture 10 Setting Up Physics – Transport of Diluted Species in Porous Media
Lecture 11 L11 Setting Up Physics – Domain ODEs and DAEs
Section 7: Mesh and Study settings
Lecture 12 Mesh and Study settings
Section 8: Results and Analysis
Lecture 13 Running the simulation and post processing
Lecture 14 How to setup Label and Titles in Plot
Lecture 15 Advanced 1D Plot and post processing part 01
Lecture 16 Advanced 1D Plot and post processing part 02
Section 9: Usefull TIps and tricks
Lecture 17 Learn how to export result data from COMSOL
Students,Researchers,Teachers,Industrial Experts,Energy Storage,Battery Experts
Homepage
https://www.udemy.com/course/1dbattery/
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