Professional Certification on Battery Pack Design and Thermal Stability

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In the last decade Lithium-Ion batteries have gained an exponential growth in terms of sales and demand, the major contribution for that goes to electric vehicle industry along with consumer electronics. These cells, due to their high energy density – almost four times that of lead acid batteries has made energy storage solutions more compact and feasible for electric mobility. Apart from this, the ability of lithium-ion cells to have almost thrice the discharge and charge rate makes it easier to charge them in less time. But all these performances come at the compromise of thermal stress.

The lithium-ion cells like all other battery chemistries have a safe operational area (SoA), where they can yield optimal efficiency. This thermal region for these cells is comparatively narrow. The ability to discharge at higher capacities puts these cells at the risk of rapid rise in temperature and reducing the life cycle in the process along with the integrity of compound and efficiency. To keep this in check the thermal stability of these cells becomes very important, to make them operate under safe thermal region and prevent any hazard.

“Best Course on Li-ion battery Design and Thermal Stability “

ISIEINDIA along with ANSYS and ARK Infosolutions has brought this one of the best course to you for learning Battery Pack Design, to help you design your custom Li-Ion battery pack. In this course you will learn about the process to design a safer battery pack for automobile applications. You will learn in detail about the various cell parameters and their interpretation for suitable operational condition and keep State of Charge, C-Rating and State of Health in check. Various methods for maintaining thermal stability of the cell and perform the relevant simulation using ANSYS Fluent. Designing the battery pack and checking for safety by performing impact test using ANSYS. BMS architecture and simulation using the ANSYS Modules.

Program outcomes
  • Battery Pack Design using ANSYS

  • Battery Pack Thermal Simulation using ANSYS Fluent

  • BMS Simulation using ANSYS

  • Studying Cell Parameters for Cell Selection.

  • Calculate Energy Consumption and thus Battery Pack Size

  • Mobile/Laptop/Tablet with good internet connectivity


  • 38 Lessons
  • 06:45:27 Hours
  • Li-Ion Cell Working00:09:00
  • History of Battery00:15:00
  • Why Lithium Cells? 00:22:00
  • Li-Ion Cell Working00:09:00
  • Battery Terminologies00:21:00
  • Li - Ion Chemistry00:32:00
  • Cell Types _ Form Factor00:16:30
  • Lithium Cell _ Materials00:16:21
  • Lithium Cell _ Failures00:11:43
  • Open Circuit Voltage & SOC00:39:00
  • Linear Polarization00:52:02
  • Finding RC Value00:10:39
  • Hysteresis Voltage 00:28:32
  • Equivalent Self Correcting Voltage 00:11:12
  • Cell Testing Coulombic Efficiency00:43:36
  • Temperature and OCV00:34:27
  • Cell Dynamic Testing00:33:25
  • Assignment 1
  • Assignment 2
  • Cell Characteristics 00:00:00
  • Cell Sorting and Grading00:00:00
  • Cell Combination00:00:00
  • Design Process00:00:00
  • Design Approach for Different Utilities00:00:00
  • Pack Materials00:00:00
  • Pack Layers00:00:00
  • Impact Simulation of Battery Pack00:00:00
  • Cell Thermal Data00:00:00
  • Cell Arrangement00:00:00
  • Thermal Runaway00:00:00
  • Battery Thermal Solution00:00:00
  • Battery Thermal Simulation – ANSYS Fluent00:00:00
  • Why BMS?00:00:00
  • Cell Balancing00:00:00
  • BMS Architecture 00:00:00
  • BMS Simulation using ANSYS00:00:00

About instructor

Name : ISIEINDIA E-Learning
Reviews : 77 Reviews
Student : 547 Students
Courses : 51 Courses


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