ABOUT THE Webinar

This webinar focuses on battery system design for electric vehicles including design methodologies and requirements, cell technologies, fast charging solutions, mechanical design solutions, battery swelling, thermal propagation and validation methodologies. This webinar will provide the participants, insights into battery design technologies and solutions for future electric vehicles.

The webinar will be organized on 29 June 2020 from 09:00 to 16:45

webinar is designed for

▪ Battery & energy storage users

▪ Cell makers & Pack assemblers

▪ Battery manufacturer

▪ Energy storage/power R&D engineers

▪ Automotive OEM  

▪ Executives and entrepreneurs

▪ Academic researchers

▪ Battery system design managers

▪ Battery plant managers & maintenance engineers

▪ Other industry members

KEY BENEFITS 

▪ Guidelines on how to design batteries

▪ Key innovation approaches for battery system design

▪ Fast charging solutions for electric vehicles

▪ Update/latest technology market trends in battery design

Contact

For any questions, contact us at contact@abeegroup.com

Registration deadline is 15/06/2020

Registration fee: Industrial: € 750 + VAT, Academic: € 550 + VAT

The number of participants is limited. The registration fee includes hard copy print out of all webinar presentations.


Program topics

  • Technology overview
  • Battery design
  • Cell technologies
  • Fast charging Mechanical design
  • Battery swelling
  • Thermal propagation
  • Design failures
  • Validation methodologies
  • Ways to design batteries
  • How far we are & What is the future ?

You can download the program via the following link: Battery System Design Webinar 2020

ScheduleProgram agenda
9:00 – 9:45Introduction to battery system designs and requirements
9:45 – 10:30

Battery cell technologies and requirements:

▪ Battery cell technologies

▪ Future requirements and constraints

▪ Regulations

10:30 – 10:45Break
10:45 – 11:30

Battery system design methodologies and solutions:

Cell-module-pack approach

Cell-pack approach

11:30 – 12:15Fast charging solutions
12:15 – 13:00Break
13:00 – 13:45Mechanical design solutions
13:45 – 14:30Battery swelling
14:30 – 14:45Break
14:45 – 15:30Thermal propagation
15:30 – 16:15

Validation methodologies: 

▪ Virtual validation

▪ Physical validation

16:15 – 16:45Wrap-up (Summary & conclusions)