Utility-scale storage finally makes sense. Highjoule’s 418kWh semi-solid system solves the equation: liquid-cooled SSB 3.2V/314Ah cells × military-grade thermal control = renewable energy that actually works when you need it. Still using last-gen batteries? That’s not storage – that’s a liability.
Sodium ion battery energy storage system
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HJ-NESS-115kWh/ HJ-NESS-125kWh
115KWh, 125KWh, Bess Sodium-ion, C&I Energy Storage Systems, Liquid cooling, NaCP 160Ah, NaCP 170AhHJT Solar panels 650W-700W
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HJT-PV
Home Energy Storage Systems, Photovoltaic Module, Solar panelsEnergy Management System Client App
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HJ-IEMS Mobile
EMS Software Platform, Energy Management SystemThis battery energy storage system uses semi-solid-state SSB 3.2V/314Ah lithium iron phosphate (LFP) cells combined with a high-efficiency liquid cooling system. It delivers a total energy capacity of 418KWh, offering high safety, long life, and stable output for commercial and industrial applications.
| Parameter | Value |
|---|---|
| Cell Voltage | 3.2V |
| Cell Capacity | 314Ah |
| Energy per Cell | 1.005 kWh (3.2V × 314Ah) |
| Total System Energy | 418 kWh |
| Cell Configuration | Approx. 416 cells (configured in series-parallel structure) |
Liquid cooling significantly improves heat dissipation, allowing for:
This system is suitable for:
Yes, the system supports international safety certifications such as UL1973, UN38.3, and IEC62619 (availability depends on project requirements). The semi-solid cell chemistry provides enhanced fire resistance and thermal stability, significantly reducing the risk of thermal runaway.
At Highjoule, we are committed to supporting our agents with reliable energy storage solutions that promotesuccess and sustainability. By becoming a Highjoule distributor, you'll gain access to quality products, dedicatedsupport, and the chance to contribute to the global energy transition.
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