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Tuesday, November 19, 2024

Charged EVs | Containing single-cell thermal runaway occasions in EV battery packs


Sponsored by Aspen Aerogels.

Below Fireplace: Reevaluating Torch and Grit Testing Parameters

The protection of Li-ion batteries depends on containing single-cell thermal runaway (TR) occasions in order that they can’t propagate into adjoining cells, triggering a cascading failure. Whereas the thermal vitality launched throughout a runaway occasion can take a number of pathways, probably the most vital are: 

  1. Cell-to-cell conduction
  2. Strong-, liquid-, and gas-phase ejecta launched from the misbehaving cell. 

The primary may be managed with high-performance insulation supplies which, when positioned between cells, act as a firewall. Because the world’s highest performing insulation supplies, aerogel-based thermal boundaries have successfully solved the problem of cell-to-cell (C2C) conduction. 

The secure dissipation of ejecta is a tougher process. The high-velocity, high-temperature jets that emerge throughout a cell rupture can rapidly soften and/or erode even stable aluminum. To higher perceive this mixed thermal and abrasive assault, engineers usually flip to the UL 2596 take a look at commonplace for steering. This technique makes use of an array of burning Li-ion cells to evaluate the thermal and mechanical efficiency of battery enclosure supplies. Not too long ago, the usual was revised to incorporate a benchtop experimental technique of simulating publicity to battery-fire ejecta, however with out the batteries. This new torch-and-grit (TaG) technique directs the flame from a propane torch at a goal pattern, whereas periodically injecting high-velocity grit into the stream to copy battery ejecta and their results on adjoining parts. 

The UL 2596 commonplace has been very useful within the analysis of pack covers, which usually exist in shut proximity with, and regular to Li-ion cell venting. Nonetheless, exterior of the fast impingement zone, the UL 2596 take a look at parameters are possible too conservative to simulate publicity all through the remainder of the pack. In different phrases, parts that may survive module- and pack-level thermal propagation testing will usually fail UL 2596, limiting its worth as a screening software for non-pack-cover functions. 

Diagram highlighting the impingement zone of a prismatic battery module.

Nonetheless, current thermal runaway testing means that UL 2596 may be modified to enhance its accuracy for non pack cowl parts. These checks positioned prismatic cells instantly in opposition to and parallel to a goal pattern such that, when triggered, the ejecta impacted the pattern at an indirect angle. The ensuing “glancing blow” was discovered to be extra typical of what’s skilled by parts farther away from the impingement zone. It additionally means that canting the UL 2596 goal to 15-25° from parallel may present a greater simulation of far-field impingement.

Thermal runaway testing to assist consider the angle of the ejecta.

After every take a look at, the ejected stable particles have been collected for evaluation. The crew reviewed the particle dimension, hardness, and chemistry to raised perceive their habits throughout thermal runaway occasions. The evaluation revealed a big proportion of enormous (>700µm), non-spherical remnants of aluminum and copper foils. Whereas their preliminary ejection velocity is excessive, the a number of inelastic impacts they expertise inside the confined house of a battery pack rapidly bleed off momentum. The ensuing crumpled items possess a low ballistic coefficient and can subsequently observe the fluid-dynamic streamlines towards the pack vent – suppose feathers, not cannonballs. 

Normal configuration really helpful by UL 2596 and different configuration that modifies the take a look at angle.

Smaller particles, possessing a Sauter imply diameter (D32) of 240 microns, have been composed primarily of oxygen, aluminum, nickel, and carbon. Regardless of their metallic composition, these particles have been tender and simply powdered within the hand. Vickers hardness testing was carried out, exhibiting a lot of the ejecta being considerably softer than UL 2596’s really helpful grit, aluminum oxide. This implies that additional modifying the take a look at with a softer abrasive would produce outcomes extra acceptable for surfaces exterior the impingement zone.

Aluminum oxide is commonly really helpful as a grit-blast media, however based on our Vickers hardness testing, it’s a lot tougher than what cell-to-cell boundaries could come into contact with throughout a thermal runaway occasion.

Accomplice with scientists and engineers who deeply perceive the complexities of thermal runaway occasions. Go to our web site to study extra about PyroThin® cell-to-cell boundaries and request a gathering with our technical crew to debate your software.



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