The 100kW/241kWh air cooling energy storage system features a prefabricated cabin design for flexible deployment, convenient transportation, and no need for internal wiring and debugging.
It responds quickly, boasts high reliability, and offers functions such as peak shaving, power capacity expansion, emergency backup power, grid balancing, capacity management, and multi-level parallel connection.
Multi-level fire protection system, graded isolation interlocking protection, and a circular air duct design to ensure the safe and stable operation of the product.
Modular “All-In-One” integrated single cabinet design for ease of transportation, convenient shipping, and straightforward maintenance.
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Rated Power |
100kW |
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Rated Voltage |
AC 380V to 415V |
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Rated Current |
140A |
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Rated Frequency |
50Hz/60Hz |
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Power Factor |
0.99 |
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Output Harmonics |
< 3% |
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Connection Method |
3P+N+PE |
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Isolation Method |
Non-isolated |
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Battery Type |
314Ah, LFP Battery |
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Battery Grouping Method |
1P240S (1P24S*10) |
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Battery Rated Capacity |
214.152kWh |
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Battery Rated Voltage |
768V |
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Battery Voltage Range |
628V to 855V |
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Rated Charge/Discharge Current |
140A |
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Cycle Life |
≥8000 cycles (at 25℃, 0.5C, 80% Depth of Discharge) |
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System Energy Efficiency |
≥90% |
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Operating Modes |
Grid-Tied / Off-Grid |
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Communication Method |
CAN, 485, TCP/IP |
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Protection Level |
IP55 |
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Anti-Corrosion Level |
C3 |
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Noise |
≤65dB |
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Fire Fighting |
Hot Aerosol |
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Operating Temperature |
-30°C to +50°C |
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Operating Humidity |
0% to 95% (no condensation) |
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Altitude |
≤2000m (derating above 2000m) |
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Cooling Method |
Intelligent Air Cooling |
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Overall Dimensions (WDH) |
1110mm*2050mm*1750mm |
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Weight |
Approximately 2.4 tons |
Dry, ventilated space (-30°C to 50°C), free of corrosion & interference. Stable surface with clearance for heat dissipation. Must be grounded & follow installation manual.
Regularly inspect connections, insulation, and ventilation. Replace batteries as needed. Clean vents without letting fluids enter equipment.
Commercial and industrial energy storage systems can store surplus photovoltaic power generated during the day and release electricity during peak demand or when photovoltaic output is insufficient, thereby increasing the proportion of self-consumption of photovoltaic power, enhancing power supply stability, and reducing reliance on the grid.
Yes. By charging during low-price periods and discharging during high-price and high-load periods, the energy storage system can effectively reduce demand charges and overall electricity costs, and demand charges are a significant component of electricity expenses for commercial and industrial users.
Liquid cooling systems provide precise temperature control for batteries, reducing thermal stress and improving system operating efficiency and battery consistency, making them particularly suitable for high-load, long-term industrial and commercial applications.
The system uses lithium iron phosphate (LFP) battery technology and is equipped with multiple safety protection designs, including real-time monitoring by the battery management system (BMS), intelligent liquid cooling temperature control, aerosol fire extinguishing system, and IP55 protection rating enclosure, ensuring safe and reliable operation.
Based on LFP batteries, the energy storage system can achieve ≥8000 cycles at 80% depth of discharge, and can operate stably for more than 10 years under normal conditions, with low performance degradation and high reliability.
Yes. The system supports multi-level parallel connection, allowing for flexible capacity expansion based on the growing energy needs of the enterprise, without requiring extensive modifications to the existing power infrastructure.
PVB offers a complete after-sale service includes installation, commissioning, maintenance, and battery replacements. Warranty covers repairs/replacements. Paid service available after.
