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As a leading manufacturer and supplier of advanced energy infrastructure, we present a robust 233kWh Commercial And Industrial Battery Energy Storage System Solution C&I. Engineered for high-demand facilities, this integrated cabinet mitigates grid instability and optimizes power expenditures.
High-density 233kWh capacity with 105kW continuous output.
Intelligent liquid thermal management for prolonged operational lifespan.
Multi-tier fire suppression ensuring facility security.
Seamless integration for peak shaving and emergency backup.
The 233kWh Commercial And Industrial Battery Energy Storage System Solution C&I stands as a monolithic testament to modern electrical engineering, encased in a heavy-gauge, C4 anti-corrosion steel chassis that feels cool and unyielding to the touch. When operational, the system emits a faint, steady hum—registering below 75 decibels—a quiet reassurance of its immense power reserves actively balancing your facility's energy loads. The sleek, weather-resistant IP54 exterior conceals a meticulously organized internal architecture where high-grade copper busbars and precision-welded LFP cells work in perfect harmony. By capturing surplus electricity during off-peak hours and deploying it when grid demand surges, this system fundamentally transforms how large-scale facilities consume power. It eliminates the anxiety of sudden blackouts and the financial drain of peak demand charges. The smooth, powder-coated finish of the cabinet not only resists harsh environmental elements but also reflects a commitment to premium craftsmanship, ensuring that the infrastructure supporting your operations is as durable as it is sophisticated.
Category | Parameter | Specification |
|---|---|---|
System Parameter | Product Model | COREY 233CE |
Battery Cell | LFP (LiFePO4) 3.2V 280Ah | |
System Capacity | 233kWh | |
Rated Power | 105kW | |
Access Method | 3W+N/3W+N+Pe | |
Communication | CAN / RS485 / Ethernet / 4G | |
Communication Standard | Modbus TCP, Modbus RTU, CAN2.0, IEC61850, IEC104 | |
Cooling Method | Intelligent Liquid Cooling | |
Fire Fighting | Aerosol (pack-level + cluster-level) + Water Fire Protection (cabinet-level) | |
Operating Altitude | 4000m (>2000m, derating operated) | |
Operating Temperature | 0℃~50℃ (charge), -20℃~50℃ (discharge), 25℃±2℃ (optimum) | |
Relative Humidity | 5% ~ 95% RH | |
Protection Level | IP54 | |
Anti-corrosion Level | C4 | |
Noise | ≤75dB | |
Weight | 2800kg±50kg | |
Size | L1560mm * D1380mm * H2385mm | |
AC Side | Rated Voltage | 230V/400V (±15%) |
Rated Frequency | 50/60 Hz | |
Maximum Current | 167A | |
Power Factor | ≥0.99 (-1~1) | |
DC Component | <0.5% | |
THDi | <2% (rated power) | |
THDu | <3% (off-grid, linear load) | |
Charge-Discharge conversion time | <100ms | |
Automatic on-grid and off-grid switching time | 20ms (optional) | |
Anti-backflow | Optional | |
Overload Capability | 1.1 times for long-term | |
DC Side | Series-parallel Number | 1P260S |
Rated Voltage | 832V | |
Voltage Range | 728~936V | |
Maximum Current | 159A | |
Discharge Depth | 95% DOD | |
Certifications | Standards | CQC, LVRT/HVRT, EN 62477, EN 61000, EN 50549-2, UN38.3, EN 62619, VDE 4105, VDE O126-1-1, XP C15-712-3, UTE C15-712-1, VFR 2019 |
Elevating facility power management requires more than just raw storage; it demands intuitive integration and relentless reliability. This system is crafted to deliver immediate operational improvements while safeguarding your long-term energy strategy through intelligent engineering.
Dynamic Load Balancing: Automatically shifts power distribution to prevent grid overload during critical production cycles, ensuring machinery receives stable voltage.
Uninterrupted Workflow: Acts as a formidable emergency reserve, keeping sensitive equipment running without a single dropped cycle during grid anomalies.
Space-Optimized Footprint: The highly compact 1560mm x 1380mm x 2385mm geometry allows for non-intrusive installation in tight utility yards or factory floors.
Acoustic Discretion: Engineered with premium sound-dampening materials to maintain a quiet working environment, emitting a barely noticeable sound profile of less than 75dB.
Grid Independence: Empowers facilities to step away from volatile utility pricing structures and establish self-reliant, predictable power ecosystems.
At the heart of this energy solution lies an uncompromising commitment to power density and output stability. We utilize automotive-grade LFP (Lithium Iron Phosphate) 280Ah cells, carefully calibrated to handle the rigorous demands of continuous, heavy-duty electrical cycling without degradation.
Massive 233kWh Golden Capacity ensures ample reserve for energy-intensive manufacturing operations.
Robust 105kW rated power output drives heavy machinery and high-draw equipment without experiencing voltage sags.
Exceptional 95% Depth of Discharge (DOD) maximizes the usable energy extracted from every single charge cycle.
Maintains strict power quality with THDi under 2%, actively protecting sensitive microprocessors and PLCs on your production floor.
Protecting your physical assets and personnel is a non-negotiable priority. We have engineered a fortress of safety protocols within the cabinet, addressing thermal risks at the microscopic level before they can escalate, giving facility managers absolute peace of mind.
Triple-layer defense mechanism featuring highly responsive Pack-level and Cluster-level aerosol suppression.
Cabinet-level water fire protection serves as the ultimate fail-safe, physically flooding the system to neutralize thermal runaway.
IP54-rated enclosure completely seals out invasive dust and moisture, preventing catastrophic short circuits in harsh climates.
C4 anti-corrosion treatment ensures the structural integrity of the cabinet even in salt-heavy coastal areas or industrial chemical environments.
Heat is the silent enemy of battery longevity. Moving beyond the inherent limitations of traditional forced-air systems, this cabinet employs a highly advanced intelligent liquid cooling matrix. The specialized fluid circulates silently through micro-channels, absorbing and dissipating heat with surgical precision.
Maintains a strict, uniform temperature across all individual cells, locking in the optimal operating state at exactly 25℃±2℃.
Slashes auxiliary system power consumption by approximately 30% when compared to legacy air-cooled alternatives.
Drastically extends the cyclic lifespan of the LFP cells, maximizing the long-term value and durability of the hardware.
Reduces internal thermal stress during rapid charging and discharging phases, ensuring consistent, predictable performance.
This system is not merely an operational safeguard; it is a highly proactive financial instrument. By intelligently navigating complex utility rate structures, the cabinet actively works to shrink your monthly overhead and accelerate the return on your capital expenditure.
Executes flawless Peak-Valley Arbitrage, absorbing cheap overnight power and deploying it during expensive peak billing hours.
Performs aggressive Demand Management, shaving off consumption spikes to lower punitive capacity and demand charges.
Fully equipped for Virtual Power Plant (VPP) integration, allowing your facility to monetize excess capacity on the open market.
Participates in grid ancillary services, turning a traditionally static asset into a dynamic, revenue-generating node.
Infrastructure should adapt seamlessly to your site, not the other way around. The All-in-One integrated design simplifies what is typically a complex, multi-vendor installation process, transforming energy storage into a plug-and-play reality for expanding facilities.
Self-contained architecture requires minimal site preparation, drastically reducing installation labor and civil engineering costs.
Seamlessly synchronizes with existing diesel generators and solar photovoltaic arrays to form highly resilient, localized microgrids.
Optional 20ms automatic on-grid to off-grid switching guarantees absolute zero downtime during unexpected utility failures.
Highly scalable design allows multiple cabinets to be paralleled together, growing in exact proportion to your operational capacity.
Visibility and control are paramount for modern energy management. The onboard Battery Management System (BMS) and Energy Management System (EMS) act as the digital brain of the cabinet, translating raw electrical data into actionable insights accessible from anywhere in the world.
Comprehensive communication suite including CAN, RS485, Ethernet, and high-speed 4G connectivity.
Speaks the native language of industrial automation with Modbus TCP, Modbus RTU, IEC61850, and IEC104 protocol support.
Secure cloud-based platform enables real-time monitoring, predictive fault alerts, and deep historical data analytics.
Remote Over-The-Air (OTA) upgrades keep the system logic continuously optimized without requiring costly on-site technician visits.
Navigating the complex landscape of international electrical standards requires hardware that is rigorously tested and universally accepted. This system has been subjected to the most punishing validation protocols globally, ensuring smooth permitting and grid interconnection.
Fully compliant with CE, UN38.3, and IEC standards, allowing for unhindered international deployment and logistics.
Meets stringent VDE 4105 and VDE O126-1-1 grid-tie requirements, specifically engineered for the demanding European energy market.
Certified for LVRT/HVRT (Low/High Voltage Ride Through), proving absolute resilience during severe grid voltage anomalies.
Eliminates regulatory friction with local authorities, accelerating overall project timelines from procurement to final commissioning.
Selecting the right partner for your energy infrastructure is a critical decision that impacts decades of operational stability. We do not just assemble components; we engineer comprehensive power ecosystems designed to outlast the challenges of tomorrow. Our manufacturing pedigree is built on precision engineering, rigorous quality control, and a deep understanding of high-stakes electrical environments.
End-to-End Engineering: From strict cell selection to final cabinet assembly, every single step is governed by uncompromising quality assurance protocols.
Tailored Integration Support: Our dedicated technical teams work closely with your site engineers to ensure flawless electrical and mechanical integration.
Rapid Global Logistics: Streamlined, robust supply chains ensure that your critical energy assets arrive safely and on schedule, regardless of the destination.
Lifecycle Partnership: We provide ongoing diagnostic support, firmware updates, and system optimization long after the initial commissioning phase is complete.
To assist procurement engineers, project developers, and facility managers in their rigorous evaluation process, we have compiled detailed responses to the most critical technical inquiries regarding our energy storage solution.
How does the intelligent liquid cooling system perform in extreme ambient temperatures?
The liquid thermal management system utilizes a highly efficient, closed-loop glycol-water mixture that actively regulates cell temperatures. Even in punishing ambient conditions up to 50℃, the system maintains the internal battery environment at an optimal 25℃±2℃, preventing thermal degradation and ensuring consistent, safe power delivery.
Can this system integrate directly with our existing factory SCADA network?
Absolutely. The onboard Energy Management System supports all major industrial communication protocols natively, including Modbus TCP/RTU, IEC61850, and IEC104. This allows for seamless, highly secure integration into your existing Supervisory Control and Data Acquisition (SCADA) architecture for centralized, facility-wide monitoring.
What happens to the power output if the installation site is located at a high altitude?
The cabinet is structurally and electrically engineered to operate safely at altitudes up to 4000 meters. However, due to thinner air affecting the cooling efficiency of external heat exchangers and altering dielectric strength, installations above 2000 meters require a specific derated operation profile to maintain our strict safety margins.
How does the optional anti-backflow feature benefit our facility's grid connection?
The anti-backflow mechanism acts as an intelligent electrical gatekeeper. It ensures that no excess power generated or stored by your facility is inadvertently pushed back into the local utility grid. This is an essential compliance feature for sites located in jurisdictions that strictly prohibit grid-injection or where specific interconnection agreements restrict power export.
What is the exact sequence of the fire suppression system during a thermal event?
The system employs a highly calculated, multi-stage defense. If abnormal heat or gas is detected at the individual cell level, the Pack-level aerosol is immediately deployed to smother the specific localized area. If temperatures continue to rise, the Cluster-level aerosol activates. As an absolute final measure, the cabinet-level water fire protection floods the enclosure to completely and permanently neutralize thermal runaway.
