Battery Pack Design and Thermal Stability

About the Program

Learn Introduction to Energy Storage System, Introduction to Battery Pack & Terminologies, Equivalent Cell Model, Cell Selection and Sorting, Battery Pack Design, Battery Thermal Management, Battery Management System accompanied with various recent case studies to attain the challenges set by the EV industries with Personalized Industry Mentorship, Career Guidance, and Placement Assistance and much more.

Personalised Mentorship

Get mentored by an experienced EV Industry expert and receive personalised feedback calls for better career guidance.

Globally Valid Certificate

Get a Globally valid certificate and enter your workplace with confidence and assert yourself as a subject matter expert.

Student Support

Student support available 09 AM to 07 PM IST via email or call and get a response within 2 working hours.

Proficiency Improvement Program

In Battery Pack Design and Thermal Stability

Complete all the courses successfully to obtain the certification.

• Globally Recognized Certificate

• Recommended program by SMEV, MSME and 17 + Automotive Industries.


Case Studies

EV Operating Cost and Infra Challenges

Perform basic calculations pertaining to various challenges faced by the industry in terms of – cost, charging, battery pack size, etc. to understand the on-ground scenarios. These will be accompanied by market data and studies to give a wider perspective and view into the industry.

Motor Modelling and Design

Modelling of different kinds of the motor on the basis of various parameters such as battery voltage, back electromotive force coefficient, and winding resistance. Comparative study of BLDC motor vs IM motors vs PMSM motors on the basis of its design, performance, efficiency.

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About Battery Pack Design and Thermal Stability Program

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 designed for Professionals / Academicians / Engineers / Undergraduate Students and all interested Electric Vehicle enthusiasts

Free Research Paper Publication

  • Case Study on Live model, Research Paper Writing and Free Research Paper Publication. Downloadable kit includes tools such as e-books, research paper references and gazetted government reports are made available at just one click.

Feedback & Interaction

  • Practical hands-on activities and video Lectures with interactive portal/forum for discussion among students. Prompt feedback to every slight curiosity and query by instructor/trainer are part of this course.

Program Outcomes


Battery Pack Design using ANSYS


Battery Pack Thermal Simulation using ANSYS Fluent


Studying Cell Parameters for Cell Selection.


BMS Simulation using ANSYS


Calculate Energy Consumption and thus Battery Pack Size

ISIEINDIA Instructors

Learn from leading Industry oriented trainer, faculty and leaders

Our Expert Work At

Top companies from all around the world


Where our Alumni Work

Payment Offers

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Introduction to Energy Storage System

Li-Ion Cell Working
00:09:00 hr
History of Battery
00:15:00 hr
Why Lithium Cells?
00:22:00 hr
Li-Ion Cell Working
00:09:00 hr

Introduction to Battery Pack & Terminologies

Battery Terminologies
00:21:00 hr
Li – Ion Chemistry
00:32:00 hr
Cell Types _ Form Factor
00:16:30 hr
Lithium Cell _ Materials
00:16:21 hr
Lithium Cell _ Failures
00:11:43 hr

Equivalent Cell Model

Open Circuit Voltage & SOC
00:39:00 hr
Linear Polarization
00:52:02 hr
Finding RC Value
00:10:39 hr
Hysteresis Voltage
00:28:32 hr
Equivalent Self Correcting Voltage
00:11:12 hr
Cell Testing Coulombic Efficiency
00:43:36 hr
Temperature and OCV
00:34:27 hr
Cell Dynamic Testing
00:33:25 hr
Battery Pack Design and Thermal Stability- Assignment 1
Battery Pack Design and Thermal Stability- Assignment 2

Cell Selection and Sorting

Cell Characteristics
Cell Sorting and Grading
Cell Combination

Battery Pack Design

Design Process
Design Approach for Different Utilities
Pack Materials
Pack Layers
Impact Simulation of Battery Pack

Battery Thermal Management

Cell Thermal Data
Cell Arrangement
Thermal Runaway
Battery Thermal Solution
Battery Thermal Simulation – ANSYS Fluent

Battery Management System

Why BMS?
Cell Balancing
BMS Architecture
BMS Simulation using ANSYS

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Enrolled: 32 students
Duration: 1 Month
Lectures: 34
Video: 20+ Hours
Level: Intermediate
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