The Battery Show and the Electric & Hybrid Vehicle Technology Expo is part of the Informa Markets Division of Informa PLC

This site is operated by a business or businesses owned by Informa PLC and all copyright resides with them. Informa PLC's registered office is 5 Howick Place, London SW1P 1WG. Registered in England and Wales. Number 8860726.

Save the Date: November 10–12, 2020
E/HV Tech Expo Digital Days Schedule Viewer

Welcome to the The Battery Show and Electric & Hybrid Vehicle Technology Digital Days Conference Session Viewer. Browse and sort the growing list of sessions by day, time, pass type, topic, or format. All session times are shown in Eastern Time, except 3rd day (November 12th) EU Conference Pass sessions are in Central European Time. Check out the event Conference Page for more information related to the event schedule. Register for Digital Days and login to the event platform to begin bookmarking sessions, building your schedule, and accessing whitepapers.

CET: 9:30-10:15am - Comparative Analysis of Thermal Runaway Heat Output as a Function of Trigger Mechanism and Cell Format

William Walker  (Lithium Ion Battery Thermal Test and Analysis, Structural Engineering Division, Thermal Design Branch, NASA Johnson Space Center)

Location: EU

Date: Thursday, November 12

Time: 3:30 am - 4:15 am

Pass Type: Virtual Conference Pass + EU (Paid), Virtual EU Conference Pass (Paid)

Track: Battery Design & Manufacturing

Format: Technical Session

Vault Recording: TBD

It is the responsibility of the designers to ensure that a safe battery design is achieved prior to production. However, this begs the question – what defines safe? Unfortunately, there is sometimes a disconnect between the policies that are instituted and what actually makes sense to the battery designers. This presentation offers an in-depth discussion on an engineering perspective to policy development regarding thermal runaway and battery safety.

  • What aspects of thermal runaway should our policy makers understand better?
  • What test methods, cell level and battery level, are available for thermal runaway and what should policy makers understand about these tests?
  • Should there be room for interpretation in the policies that are instituted or should there only be one interpretation?
  • Do the policies make sense? Sometimes, due to this misunderstanding of thermal runaway fundamentals, policies can become very impractical