SANSE's lithium iron phosphate battery stacking enclosure utilizes an innovative design to achieve flexible cell combinations, accommodating up to 64 groups of battery cells. This modular solution replaces traditional cabinet and insert combinations, addressing challenges of low space utilization and inflexible configurations in energy storage systems while reducing overall costs. In the context of evolving power demands, the stacking enclosure can be adjusted to suit actual needs, catering to the growing and diverse demands of the energy storage market.

SANSE's lithium iron phosphate battery cabinet enclosure offers 8-layer and 5-layer configurations, capable of storing a total of 372 kWh and 252 kWh of energy, respectively. Compared to traditional metal cabinets, the lightweight characteristics of composite cabinets and the easy assembly design solve the high transportation and installation costs associated with heavy equipment. The modular design allows users to expand flexibly according to actual needs, while the corrosion resistance, weatherproofing, and excellent insulation properties ensure stable performance in harsh environments, greatly improving system reliability.

SANSE's lithium iron phosphate battery PACK insert box features an extended design to simplify the assembly of 52 PACK insert boxes, with significantly improved load-bearing capacity in the lower enclosure, effectively reducing production and maintenance costs. The lightweight and modular design enhances installation efficiency and reduces the overall system weight, which helps ease the burden on infrastructure, meeting modern energy storage systems' requirements for high efficiency and flexibility.

In the lead-acid battery sector, SANSE's power station enclosure offers distinct advantages in the market, with a smaller footprint and a larger cooling contact area, optimizing thermal management and addressing the overheating issues of power station equipment. The composite material, integrated into a one-piece design, enhances corrosion resistance and weatherproofing, and features a built-in liquid cooling system, significantly improving energy efficiency and operational safety. This solution meets the high load-bearing demands of large-scale energy storage projects, with a single unit capable of supporting up to 10 tons, effectively addressing the industry's stringent safety and efficiency requirements.

SANSE's lead-acid battery base station enclosure is designed to tackle industry challenges, holding 168 battery cells with a total capacity of around 48 kWh, while maintaining a total weight of just 1.2 tons. Its fast assembly capability enables rapid deployment in urgent scenarios, and the integrated liquid cooling system effectively manages heat dissipation under high-load conditions. The enclosure's superior corrosion resistance, weatherproofing, and insulation properties ensure long-term stable operation in diverse environmental conditions, significantly reducing maintenance costs and improving overall system reliability.

SANSE's lead-acid battery air-cooled stacking enclosure features a one-piece, modular design that directly forms the air duct, enhancing overall structural stability and airflow efficiency. This design meets the industry's high-efficiency cooling demands while greatly improving corrosion resistance and weatherproofing, ensuring long-term durability in various environments. With a load-bearing capacity of over 7 tons, the enclosure maintains excellent safety and stability when housing heavy batteries. Additionally, reliable insulation properties further enhance system safety by preventing electrical failures and accidents. The enclosure's ease of installation and maintenance, allowing batteries to be easily removed for transport and replacement, reduces downtime and maintenance costs, boosting the overall efficiency of energy storage systems. This solution provides the energy storage industry with a safe, flexible, and efficient option, meeting the diverse applications and rapid growth in power demand.