Outdoor cabinet energy storage system is a compact and flexible ESS designed by Sail Solar based on the characteristics of small C&I loads. The outdoor distributed energy storage system integrates core parts such as the battery units, PCS, fire extinguishing system, temperature control systems, and EMS systems. It can meet the capacity requirements of 215kWh~261kWh.
Marca :
SAIL SOLARModelo do produto :
105KW to 125KW/215kwh to 261kwh BESSTipo de Bateria :
Lifepo4garantia :
10 yearsTensão CC de entrada máxima (V) :
1000VFrequência de saída :
50hz/60hzTipo de inversor :
105KW to 125KW PCSTamanho: :
1460*2203*1400Voltagem da bateria :
650-864VGrau de proteção :
IP65Tensão de saída (V) :
220v/380v;230v/400v
This is an integrated liquid-cooling outdoor cabinet BESS that combines high-efficiency power conversion, large-capacity energy storage, and high-level protection, designed specifically for industrial and commercial peak shaving and valley filling, microgrids, backup power, and new energy grid integration applications.
The system is equipped with a 105–125kW bidirectional power conversion system (PCS) and matched with a 215–261kWh lithium iron phosphate (LFP) battery cluster. Adopting liquid-cooling thermal management technology, it delivers more uniform heat dissipation and higher temperature control accuracy compared to conventional air cooling, effectively suppressing battery temperature differences, extending cycle life, enabling higher power continuous charging and discharging, and enhancing system stability and reliability.
The unit integrates BMS, EMS, fire protection, and liquid cooling modules with IP54 ingress protection, allowing direct outdoor deployment without the need for a dedicated equipment room, ensuring easy installation and efficient operation and maintenance (O&M). Supporting both grid-tied and off-grid operation modes, it helps users reduce electricity costs and improve power supply reliability, making it the preferred energy storage solution for industrial, commercial, and park applications.
✔ 105kw to 125kw High-Efficiency Bi-Directional PCS
Enables fast charging/discharging, grid interaction, solar integration, and smooth power conversion for all operating modes.
✔ 215kwh to 261kwh Long-Life LiFePO4 Battery Pack
Premium-grade cells deliver over 8000 cycles, excellent thermal stability, and enhanced safety for long-term performance.
✔ All-in-One Energy Storage Cabinet
Integrated PCS, battery modules, BMS, EMS, cooling, and protection systems in a single outdoor-ready enclosure.
✔ Advanced BMS + EMS Intelligent Control
Provides real-time monitoring, load management, peak shaving, energy scheduling, fault alarms, and remote control.
✔ Reliable Backup Power for Critical Loads
Ensures uninterrupted power during grid outages, ideal for commercial buildings, factories, telecom sites, and microgrids.
✔ Seamless Solar PV Integration
Supports hybrid operation with rooftop or ground-mounted solar systems for greater renewable energy usage.
✔ Modular, Scalable & Easy to Install
Plug-and-play design simplifies deployment and allows system expansion to larger capacities.
✔ Liquid-cooling thermal management technology
It delivers more uniform heat dissipation and higher temperature control accuracy compared to conventional air cooling, effectively suppressing battery temperature differences, extending cycle life, enabling higher power continuous charging and discharging, and enhancing system stability and reliability.
PV Power Supplies Loads with Priority
During daytime, electricity generated by the photovoltaic system is converted to AC power by the PV inverter and delivered to the AC bus. This power is first used to supply local loads such as EV chargers or commercial and industrial equipment.
Excess PV Energy Charges the Battery
When PV generation exceeds load demand, the surplus energy is routed through the PCS operating in charging mode (AC to DC) and stored in the lithium battery. This maximizes self-consumption of solar energy and reduces curtailment.
Battery Discharges When PV Is Insufficient
If PV output decreases or load demand increases, the PCS automatically switches to discharging mode (DC to AC). The battery then supplies power to the AC bus, compensating for the power gap and reducing grid dependency.
Nighttime or No-Solar Operation
At night or during periods without solar generation, the PV system is inactive. The BESS supplies power to the loads via the PCS. When the battery state of charge (SOC) reaches the predefined lower limit, the system transfers the load to the utility grid or enters standby mode.
Grid Interaction and Energy Management
The EMS continuously monitors PV output, load demand, battery SOC, and grid conditions. Based on predefined control strategies, it regulates PCS charging and discharging power to enable peak shaving, load shifting, demand control, and grid export limitation (including zero-export operation). Remote monitoring is supported via web and mobile platforms.
TAG :
Tel : +86 -18655186412
E-mail : Inquiry@sailsolarpv.com
Whatsapp : +86 -18655186412
Add : Building 7, Cross Border E-Commerce Supervision Zone, Hefei, China
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