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As a leading manufacturer and direct supplier of advanced energy solutions, we present the Liquid-cooled 3.72MWh Energy Battery Manufacturing Battery Energy Storage System. Engineered for utility-scale and commercial applications, this high-capacity unit optimizes power distribution and maximizes operational efficiency.
Supplied directly by the manufacturer, ensuring premium build quality, strict quality control, and exceptional cost-efficiency.
Integrated virtual power plant capabilities allow for seamless grid coordination and intelligent energy distribution.
Robust, modular containerized architecture designed for rapid deployment and flexible site expansion.
The Liquid-cooled 3.72MWh Energy Battery Manufacturing Battery Energy Storage System represents the pinnacle of modern energy asset management, meticulously engineered to transform how large-scale facilities handle power consumption. Housed within a heavy-duty, precisely welded steel container, the system exudes industrial durability, featuring a sleek, weather-resistant exterior that stands resilient against the harshest environmental elements. Inside, the quiet, steady hum of the intelligent liquid cooling mechanism replaces the loud, disruptive roar of traditional HVAC units, ensuring a serene yet highly productive operational environment. By seamlessly integrating an advanced Battery Management System (BMS), Power Conversion System (PCS), and Energy Management System (EMS), this unit transcends basic storage to function as a highly responsive virtual power plant. It actively harmonizes multiple distributed energy resources, smoothing out power fluctuations and drastically reducing reliance on volatile grid pricing. Facility operators will immediately notice the tangible reduction in energy overhead, alongside the profound peace of mind that comes from a stable, uninterrupted power supply. Every component, from the high-density cells to the precision-machined cooling pipes, is crafted to deliver a seamless, high-yield energy experience, empowering your infrastructure to operate with unprecedented autonomy and financial predictability.
Parameter | Value |
|---|---|
Product Model | COREY-L3.7-1500 |
Product Name | Liquid cooling storage battery container |
Battery Cell | LFP(LiFePO4) 3.2V 280Ah |
System Capacity | 3727.36kWh |
Voltage Range | 1331.2V(1164.8~1497.6) |
Communication | CAN/RS485/Ethernet |
Cooling Method | Intelligent liquid cooling |
Fire Fighting | Perfluorohexanone/heptafluoropropane + water spray |
Operating Altitude | 4000m(>2000m derate) |
Operating Temperature | -20℃~50℃ |
Protection Level | IP54 |
Weight | 37t |
Size(L*D*Hmm) | 6058*2438*2896mm |
Certifications | CQC, IEC/EN62619, IEC/EN63056, IEC/EN61000, FCC, IEC/UL60730, UL1973, UL9540A, UN38.3, IEC/EN62477, UL9540, UN3536, GB36276, GB/T34131, IEC/UL60730, UN3536 |
Application | Remote areas, power supply side and power grid side |
Investing in a high-capacity storage infrastructure requires absolute certainty in performance, safety, and reliability. This system is engineered to eliminate operational bottlenecks, providing a robust, fail-safe foundation for your long-term energy independence strategy.
Exceptional Thermal Consistency: The distributed temperature control architecture assigns dedicated thermal management to individual clusters, ensuring a system-wide temperature variance of merely ≤8℃. This meticulous thermal balancing drastically extends the operational lifespan of the internal components.
Seamless Scalability: The modular containerized architecture allows facility managers to effortlessly expand their energy reserves as operational demands grow, eliminating the need for complex and costly complete system overhauls.
Harsh Environment Resilience: Encased in an IP54-rated fortified shell, the unit actively repels dust, moisture, and corrosive elements, guaranteeing uninterrupted performance whether stationed in arid desert plains or humid coastal industrial zones.
Virtual Power Plant Ready: By coordinating distributed energy resources as a unified whole, the system optimizes energy consumption patterns, allowing operators to capitalize on lucrative peak shaving and grid stabilization incentives.
Our engineering approach integrates cutting-edge material science with advanced software algorithms, ensuring that every operational dimension of the energy storage system delivers maximum value and uncompromised safety to the end user.
Utilizing premium LFP (LiFePO4) 3.2V 280Ah cells, this system delivers exceptional thermal stability and unparalleled energy density, forming a rock-solid foundation for massive energy reserves.
Operators will experience minimal capacity degradation even under continuous, high-load operational cycles, securing a long-term, highly reliable energy asset that requires minimal cell replacement over its lifespan.
The sophisticated liquid cooling mechanism operates on a strict "one cluster, one thermal management" protocol, proactively mitigating thermal runaway risks before they can materialize.
Facility managers benefit from significantly reduced acoustic footprints and lower parasitic energy consumption compared to traditional air-cooled alternatives, directly improving the net energy yield.
Safety is paramount in large-scale energy deployments. This unit integrates a multi-tier fire suppression matrix utilizing clean agents (Perfluorohexanone/heptafluoropropane) alongside a targeted water spray system.
Coupled with real-time combustible gas, smoke, and temperature detection sensors, it provides module-level active warnings and precise, localized extinguishing capabilities, thoroughly eliminating safety concerns.
Engineered for the extremes, the rugged, anti-corrosive enclosure maintains structural and operational integrity in ambient temperatures ranging from a freezing -20℃ to a blistering 50℃.
It operates flawlessly at high altitudes up to 4000 meters (with standard derating applied above 2000m), making it the definitive choice for remote mining operations and expansive outdoor utility stations.
Unlock new revenue streams and operational savings through advanced peak shaving, valley filling, and dynamic frequency regulation capabilities.
The system facilitates seamless transitions between on-grid and off-grid states, maximizing the absorption of renewable inputs like solar power to dramatically improve your return on investment and lower overall utility expenses.
Equipped with versatile, industry-standard communication protocols including CAN, RS485, and Ethernet, the system integrates flawlessly into your existing cloud platforms and energy management software.
Enjoy granular, real-time data visualization, predictive maintenance alerts, and remote diagnostic capabilities, which drastically reduce the need for on-site manual interventions and lower ongoing maintenance costs.
The highly integrated, all-in-one containerized format minimizes site preparation requirements and dramatically accelerates the commissioning timeline.
This plug-and-play methodology significantly reduces engineering, procurement, and construction (EPC) overhead, ensuring your facility achieves energy resilience faster and with far less logistical friction.
Selecting the right manufacturing partner is just as critical as the technology itself. As a premier manufacturer and dedicated supplier of intelligent clean energy products, we provide more than just heavy-duty hardware; we deliver comprehensive engineering services tailored to your specific infrastructure requirements. Our unwavering commitment to excellence ensures that every unit leaving our production floor meets the most stringent global standards, providing you with a seamless procurement experience.
Direct Manufacturer Pricing: By bypassing intermediaries and sourcing directly from our state-of-the-art production facilities, we offer highly competitive pricing structures without ever compromising on the premium quality of the components or the final assembly.
Rigorous Quality Assurance: Every system undergoes exhaustive, multi-stage testing protocols and is certified by international standards including IEC, UL, FCC, and UN. This guarantees immediate regulatory compliance for your global infrastructure projects.
End-to-End Engineering Support: From the initial site assessment and load profiling to final commissioning and grid synchronization, our expert technical teams provide continuous guidance, ensuring your energy storage integration is flawless and optimized.
Innovative R&D Focus: We continuously reinvest in advanced energy storage technologies and smart microgrid solutions, ensuring our partners always have access to the most forward-thinking, efficient, and future-proof energy assets available on the market.
Navigating the complexities of utility-scale energy storage requires precise, authoritative information. Below are detailed, technical answers to the most critical inquiries frequently raised by facility engineers, project managers, and procurement specialists regarding our liquid-cooled systems.
Q1: How does the intelligent liquid cooling system improve the overall lifespan of the battery cells compared to air cooling?
The intelligent liquid cooling mechanism targets individual battery clusters through a closed-loop fluid network, maintaining a strict temperature variance of ≤8℃ across the entire 3.72MWh array. By preventing localized hotspots and maintaining optimal, uniform operating temperatures, the system minimizes thermal stress on the LFP cells. This highly efficient heat dissipation significantly reduces capacity degradation over thousands of charge-discharge cycles, extending the asset's viable lifespan far beyond traditional air-cooled units.
Q2: Can this storage container be integrated seamlessly into an existing facility's Energy Management System (EMS)?
Absolutely. The system is engineered with highly adaptable, open-architecture communication interfaces, natively supporting CAN, RS485, and Ethernet protocols. This ensures a seamless, plug-and-play integration with proprietary or third-party cloud platforms and existing EMS. It allows for centralized control, real-time data monitoring, and automated dispatching without requiring a costly overhaul of your current software infrastructure.
Q3: What specific fire suppression technologies are implemented within the IP54 enclosure to ensure maximum safety?
Safety is engineered at multiple, redundant levels. The container utilizes a highly advanced, dual-action fire suppression strategy combining clean chemical agents (Perfluorohexanone/heptafluoropropane) with a targeted water spray system. This matrix is instantly triggered by an intelligent sensor network that continuously monitors for combustible gases, smoke, and abnormal temperature spikes, allowing for precise, localized extinguishing before a thermal event can escalate.
Q4: How does the system perform in high-altitude or extreme temperature environments typically found in remote projects?
The robust, IP54-rated container is specifically designed for harsh, unforgiving environments. It operates reliably in ambient temperatures ranging from -20℃ to 50℃, utilizing its internal thermal management to keep cells stable. Furthermore, it is engineered to function at extreme altitudes up to 4000 meters. A standard, automated derating protocol is applied for installations exceeding 2000 meters to ensure sustained component longevity, electrical safety, and uninterrupted performance.
Q5: In what specific ways does this system contribute to reducing operational energy costs and improving ROI?
By acting as a highly responsive virtual power plant, the system enables sophisticated energy arbitrage. Facility operators can store energy during off-peak hours when utility rates are lowest and discharge it during peak demand periods to avoid premium tariffs. Additionally, its seamless grid-friendly features—such as frequency regulation, power factor correction, and peak shaving—drastically reduce demand charges and maximize the self-consumption of integrated renewable energy sources like solar.
