BYD

Last updated February 1, 2026

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Automated fire suppression logic controllers: BYDRecent Research Landscape

Thermal runaway in energy storage systems leads to catastrophic asset loss and safety hazards. These innovations integrate sensor-driven algorithms and electronic control units to trigger localized suppression protocols.

What technical problems is BYD addressing in Automated fire suppression logic controllers?

Uncontrolled battery thermal runaway

(24)evidences

Battery energy storage systems suffer from rapid, self-sustaining heat release that conventional suppression fails to contain. Preventing catastrophic cascading failure across high-density cells ensures structural integrity and safety.

Undetected battery thermal runaway

(20)evidences

Delayed detection of exothermic reactions leads to catastrophic failure in energy storage systems. Early identification of internal instability prevents irreversible damage and fire propagation.

Uncontrolled thermal runaway propagation

(18)evidences

Uncontrolled heat release in battery cells leads to catastrophic system failure and vehicle fires. Preventing this escalation ensures passenger safety and hardware integrity.