UL Solutions has announced enhancements to its testing methods for battery energy storage systems (BESS) that address industry innovations, including test methods for non-lithium-ion battery chemistries, such as sodium-ion batteries, that reflect the evolution of battery technology while continuing to address fire risk mitigation.
Credit: e-STORAGE and UBS Asset Management
The changes reflect updates found in the fifth edition of ANSI/CAN/UL 9540A, the Standard Test Method for Evaluating Thermal Runaway Fire Propagation in Battery Energy Storage Systems, the American and Canadian national standard for addressing thermal runaway propagation for energy storage systems. The fifth edition was published by UL Standards & Engagement after collaboration with the energy storage industry, regulatory authorities and others serving on the standard’s technical committee.
“We are committed to working with industry to bring safer products to market and empower the safe and sustainable growth of the energy storage market,” said Wesley Kwok, VP and general manager of the energy and industrial automation group at UL Solutions. “These collaborative efforts with industry stakeholders and the fire safety community ultimately enhance the resilience of our energy infrastructure and protect communities worldwide.”
ANSI/CAN/UL 9540A provides a standardized test method to determine a battery technology’s susceptibility to thermal runaway. The test method also evaluates fire and explosion hazards due to thermal runaway, such as the ejection of hot particles. After testing, a report provides data used to determine the necessary fire and explosion protection needed for tested BESS installations. The data from the report is used for demonstrating compliance with codes and installation standards, such as NFPA 855 and the International Fire Code.
The original testing methods for thermal runaway propagation for energy storage systems were developed in 2017. After multiple revisions, UL has landed on this fifth edition. Key enhancements include clearer criteria for cell-to-cell propagation, high-temperature test methods for various battery chemistries and testing protocols for emerging applications such as rooftop and open-garage BESS installations.
While ANSI/CAN/UL 9540A focuses specifically on the test method, the related UL standard, UL 9540, the Standard for Energy Storage Systems and Equipment, provides comprehensive product safety criteria and the basis for UL certification of the complete BESS itself. This includes its battery cells, modules and racks, and power conversion, battery management, energy management, communication and safety systems. The coordinated application of UL 9540A and UL 9540 and adherence to relevant installation codes help support the safe deployment of BESS.
“The rapid integration of energy storage across all sectors demands unwavering focus on mitigating fire and explosion risks and close engagement with industry, regulators and other experts. This must be accomplished with a strong foundation of science, as safety and reliability are paramount to the global energy transition,” said Ken Boyce, VP of principal engineering at UL Solutions.
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