ABOUT THE WORKSHOP
Workshop focuses on both automotive and stationary battery safety in each phase of battery’s cycle life, including acceptance, testing, assembly, use, transportation, and disposal. This workshop will engage in battery assembly operations, safety solutions to identify at the cells, pack and system level.
The workshop will be organized 15th November 2021 (Monday)
Workshop is designed for
▪ Battery & energy storage users
▪ Cell makers & Pack assemblers
▪ Energy storage suppliers
▪ Energy storage/power R&D engineers
▪ Executives and entrepreneurs
▪ Academic researchers
▪ Organization safety managers
▪ Battery plant managers & maintenance engineers
▪ Other industry members
KEY BENEFITS
▪ Root cause for selected battery safety
▪ Guidelines on how to handle batteries safely
▪ What-to-do guidelines of battery safety
▪ Checklist of safety equipment needed
▪ Update- latest technology market trends in battery safety
Contact
For any questions, contact us at contact@abeegroup.com.
Registration deadline is 15/10/2021
Registration fee: Industrial: € 1,000 + VAT, Academic: € 750 + VAT, Online participation: € 500 + VAT
10% discount for two (2) group attendees. The number of participants is limited. The registration fee includes hard copy print out of all workshop presentations, lunch, refreshments and excludes dinner.
Registration is open through the following link
Program topics
- Technology overview
- Thermal runaway
- Thermal propagation
- Design failures
- Safety issues & features
- Modelling approaches
- Ways to build safe batteries
- How far we are & What is the future ?
You can download the program via the following link: Battery Safety Workshop 2021
| Day 1: Program agenda | Schedule | Day 2: Program agenda |
| Welcome & Introduction | 8:30 – 9:00 | Coffee & Refreshment |
| Battery safety issues, features and challenges of LIBs | 9:00 – 9:45 | Key issues for LIB management in electric vehicles |
| Thermal runaway from cell to pack & real lifetime use | 9:45 – 10:30 | Battery safety & guidelines in production plants |
| Networking break | 10:30 – 10:45 | Networking break |
| Thermal propagation in LIBs | 10:45 – 11:30 | Operational safety of electric buses at depots |
| Fundamentals of failure propagation in LIBs | 11:30 – 12:15 | Modelling approaches for LIBs safety |
| Lunch | 12:15 – 13:00 | Lunch |
| Battery design and management issues | 13:00 – 13:45 | Materials for Li-ion battery safety |
| Battery degradation characteristics & influence factors | 13:45 – 14:30 | Building Safe LIBs for Electric Vehicles |
| Networking break | 14:30 – 14:45 | Networking break |
| Current challenge of lithium dendrites | 14:45 – 15:30 | Battery pack safety design and validation |
| Safety-enhancing technologies for LIBs | 15:30 – 16:15 | Solid-state batteries: safer for future? |
| Wrap-up (Summary & conclusions) | 16:15 – 16:45 | Wrap-up (Summary & conclusions) |