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Characterization of Thermally Induced Runaway in Pouch Cells for Propagation

NCJ Number
Fire Technology Dated: 2020
Date Published

This project compared thermal runaway events for single cells failed using a heater with cells failed due to propagation in an array.


Thermal runaway of lithium-ion batteries is particularly dangerous in systems where runaway can propagate through many cells. To understand thermal runaway propagation in these systems, it is important to understand the differences between failure characteristics of the initial cell that fails due to an abuse event and subsequent cells that fail due to thermal runaway propagation. In the current project, most of the tests were conducted in an inert environment within a pressure vessel. Cell clamping stress, vessel gas pressure, and temperature data indicated that runaway in cells within an array traversed the cells more slowly and released gas at a slower rate than singly failed cells. For heater-initiated cell failure, post-experiment cell teardowns suggest that thermal runaway originates at a single point and creates a gas flow stream that causes heavy damage and exits from one side of the cell. Teardowns of cells that failed due to array propagation showed more uniform damage and gas release from a larger area. 23 references (publisher abstract modified)

Date Published: January 1, 2020