BYD

Last updated February 1, 2026

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Integrated fire suppression architecture: BYDRecent Research Landscape

Thermal instability and environmental exposure in high-density power arrays lead to catastrophic cell failure. These innovations mitigate risk through structural cabinet isolation and integrated climate control systems.

What technical problems is BYD addressing in Integrated fire suppression architecture?

Inadequate thermal management airflow

(52)evidences

Inconsistent temperature gradients across high-density battery cells lead to localized overheating and premature degradation. Achieving thermal uniformity prevents thermal runaway and extends the operational lifespan of the energy storage system.

Uncontrolled thermal runaway propagation

(36)evidences

Rapid heat spread between adjacent battery cells and modules leads to catastrophic system failure. Preventing this escalation ensures structural integrity and safety in high-density power environments.

Enclosed equipment fire propagation

(11)evidences

External moisture and internal heat accumulation compromise sensitive electronic components in high-density enclosures. Mitigating these factors prevents hardware failure and unplanned downtime.