攀登储能安全新高度！瑞浦兰钧储能产品通过大规模火烧测试

Core Viewpoint - REPT BATTERO has successfully passed a large-scale fire test for its 5MWh energy storage battery cabinet, demonstrating its ability to prevent thermal runaway and setting a new safety benchmark in the energy storage industry [21][22]. Group 1: Test Overview - The fire test involved a fully charged 5MWh battery cabinet that burned continuously for 14 hours, simulating five types of composite fire scenarios [21][22]. - The test was conducted under extreme conditions, with the battery storing maximum energy and exhibiting high chemical activity, which significantly increases the risks associated with thermal runaway [22][23]. Group 2: Testing Methodology - Ignition was triggered using a combination of internal heating and external propane flame injection, creating a realistic simulation of catastrophic accident scenarios [23]. - The test design included a rigorous setup that removed active fire suppression systems, relying solely on the battery cabinet's passive safety features to manage the fire [13][20]. Group 3: Safety Performance - The test successfully prevented the spread of thermal runaway, with the highest flame temperature reaching 1380°C while maintaining the internal temperature of adjacent battery cells below 57°C, indicating effective thermal management [7][20]. - The testing apparatus was designed to simulate the harshest fire scenarios, adhering to multiple core safety standards, including CSA/ANSI C800:25, NFPA 855, and UL 9540A [22]. Group 4: Data Collection and Analysis - Over 600 temperature monitoring points were deployed during the test, allowing for comprehensive data collection on the fire's behavior and the battery's performance [20]. - Post-test inspections revealed that the battery cabinet's structural integrity remained intact, with no collapse or significant damage, further validating the product's safety design [20].