CORNEX Shines at SNEC PV POWER & ES EXPO,All-Scenario Energy Storage Deployment Draws Industry Attention
On June 11th, the 18th SNEC PV POWER & ES EXPO was held in Shanghai. CORNEX made a grand debut with full-scenario energy storage solutions, clearly outlining the technical direction and development blueprint for next-generation energy storage products, becoming the focus of the exhibition.
Product Breakthrough: Redefining New Benchmarks with Performance-level Leap
The core highlight of CORNEX at this exhibition is undoubtedly the 472Ah large-capacity energy storage battery which is about to enter large-scale mass production. As CORNEX's fourth-generation energy storage battery, the 472Ah cell has a nominal energy of 1,510.4Wh, an energy density as high as 195Wh/kg, and possesses multi-dimensional advantages such as "high reliability, high performance, long cycle life, and high adaptability". Through the strategy of "technology reuse + shared production capacity", the 472Ah cell can transplant the mature production line process of the 314Ah cell, achieving rapid mass production while maintaining high safety and high consistency.
By integrating the 472Ah battery, CORNEX M6 BESS achieves a standard 20-foot container capacity of 6.28MWh, with a maximum single-cabin expansion up to 6.9MWh, which is suitable for 2+ hour energy storage in power and industrial-commercial scenarios. This represents a 38% capacity increase and a 20% reduction in project footprint compared to industry products of the same specification. CORNEX M6 will redefine the economic and efficiency standards for energy storage projects, injecting strong momentum into the industry.
Full-Scenario Empowerment: Unlocking Energy Storage Application Codes
CORNEX believes that safety, reliability, and long-term value are at the heart of large-scale energy storage applications—forming the foundation of its strong technological moat. At this exhibition, CORNEX shared three innovative achievements with the attendees: the Submerge 2.0 safety system, cathode pre-lithium and high-temperature durable technology.
In the field of safety, the Submerge 2.0 system achieves PACK-level ultra-fast early warning and millisecond-level blocking, firmly nipping the risk of thermal runaway in the bud. It can achieve fire extinguishing within 6 seconds, providing ultimate safety guarantees for centralized energy storage power stations and high-density application scenarios. At the same time, CORNEX is committed to the safety evolution of batteries and system levels, providing a solid safety foundation for the development and application of new technologies.
In terms of system cycle life, CORNEX has innovatively applied cathode pre-lithium technology, effectively offsetting active lithium loss during battery cycling. This approach fundamentally delays capacity fade from the material level, significantly extending the service life of both cells and systems, and creating more durable and stable investment returns for owners.
In response to the widespread application needs in global high-temperature regions, CORNEX's products leverage high-temperature durable technology through material system and thermal management design optimization, maintaining excellent performance and cycle life in harsh environments. This has significantly expanded the geographical boundaries of energy storage deployment, removing obstacles for solar-storage projects in tropical, desert, and other areas with abundant sunshine resources but harsh climates.
It is the synergistic effect of safety, service life, and environmental adaptability that unlocks the infinite potential of energy storage products in full-scenario applications.
Forward-Looking Layout: Leading the Infinite Possibilities of the Future
While promoting the continuous implementation of new technologies and products, CORNEX has already extended its vision to the further evolution direction of energy storage technology, demonstrating a forward-looking strategic layout.
To cope with the accelerated arrival of the high-voltage solar-storage era, CORNEX has arranged a 2000V high-voltage platform design in advance. CORNEX M6 BESS can switch from the 1500V to 2000V platform as needed, enabling more efficient DC-side coupling, reducing energy conversion losses, and significantly improving the overall system efficiency and revenue of solar-storage integrated projects.
Meanwhile, CORNEX is actively integrating AI technology into battery management systems (BMS) and energy storage power station operations, aiming to achieve precise state assessment, intelligent fault diagnosis, lifespan prediction, and optimized O&M strategies. This drives energy storage power stations toward "unmanned, intelligent, and highly efficient" operations, continuously reducing total LCOE.
In addition, taking the mass production of 472Ah batteries as an important milestone, CORNEX continues to deepen its focus on large-capacity and high-density battery technology routes, and has arranged the next-generation 500Ah+ and 600Ah+ ultra-large capacity energy storage batteries in advance to meet the ultimate pursuit of energy density and cost-effectiveness for the growing global large-scale energy storage projects.
It is the high-voltage platform adaptation, AI intelligent O&M, and large-capacity product strategy that together paint a clear blueprint for CORNEX to lead future energy storage development.
The grand display of full-scenario energy storage products is a powerful declaration of CORNEX's deep commitment to technology and leadership in innovation. Standing at the critical juncture of industrial upgrading, CORNEX will take energy storage solutions as a fulcrum, and through continuous technological breakthroughs and forward-looking layout, assist partners in addressing complex energy challenges and contribute to global sustainable development.
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