When extreme temperatures hit Phoenix last month, 12 battery storage facilities tripped offline—thermal runaway risks aren't theoretical. As global energy storage capacity surpasses 1.2 TWh, why do 23% of system failures still originate from cabinet-level vulnerabilities? The answer lies in evolving safety protocols that must outpace battery chemistry advancements.
As global lithium-ion battery deployments surge past 650 GWh capacity, a critical question emerges: Are current safety measures keeping pace with exponential growth? The recent Melbourne battery fire (June 2024) that disrupted 40,000 homes underscores the stakes - we're not just protecting equipment, but entire energy ecosystems.
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