100kW 261.24kWh Industrial Energy Storage Liquid Cooled Energy Storage Cabinet IP54

Camel Energy | Professional Industrial Outdoor Energy Storage Solution

• Rated Charge/Discharge Power: 100kW
• Rated Energy: 261.24kWh
• Cell Chemistry: Lithium Iron Phosphate (LFP)
• DC Nominal Voltage: 832Vdc (Operating Range: 728~936Vdc)
• AC Grid-tied Nominal Voltage: 400Vac (3P4W)
• Protection Rating: IP54 (Outdoor) | Anti-corrosion Grade: C3
• Thermal Management: 6kW Embedded Integrated Liquid Cooling System
• BMS Architecture: Dual-level (BMU+BCU) with 3-stage Software Protection
• Fire Protection: Cabinet-level S-type Aerosol Fire Extinguishing System
• Mechanical Specs: 1700(W)*1350(D)*2030(H)mm | Net Weight ~3t | Color RAL7035
• Compliance: GB51048, IEC 62619, IEC 63056, UL 9540A, RoHS
• Altitude Adaptation: 0-2000m (no derating)

Camel Energy’s 100kW/261.24kWh Liquid-Cooled Energy Storage Cabinet is a fully integrated, industrial-grade outdoor energy storage system engineered exclusively for industrial application scenarios. This all-in-one cabinet integrates high-performance LFP battery clusters, rack-mounted modular PCS, 120kW MPPT solar charge controller, 200kVA STS transfer switch, embedded liquid cooling thermal management, cabinet-level intelligent fire protection, high-precision BMS and industrial-grade energy management unit (EMU), achieving centralized control, real-time monitoring and full-life cycle risk management of the industrial energy storage system.

Tailored for the harsh operating conditions of industrial sites, the cabinet features an IP54 dustproof and waterproof rating combined with C3 anti-corrosion protection, enabling stable operation in various outdoor industrial environments with dust, rain, snow and mild corrosive air. The embedded 6kW liquid cooling system realizes precise temperature control, keeping the battery module average temperature difference within 5°C and the internal ambient temperature below 40°C, which effectively slows down battery SOH attenuation and ensures the long-term stable operation of the energy storage system under high-load industrial working conditions. Equipped with a dual-level BMS and cabinet-level fire protection system, it provides multi-dimensional safety protection from battery cell to system level, eliminating safety hazards such as overcharge, over-temperature, short circuit and thermal runaway. The modular PCS design supports multi-machine parallel connection, meeting the flexible expansion of industrial users' energy storage capacity demand, and the built-in EMU supports remote OTA upgrade and cloud-edge interaction, realizing unmanned and intelligent operation of industrial energy storage systems.

This industrial-grade liquid-cooled energy storage cabinet is specially designed for industrial user side energy storage demands, and is widely applicable to various industrial scenarios with flexible and efficient energy management strategies, including:

Industrial Peak Shaving & Load Regulation

Automatically charges during the off-peak period of industrial power grid and discharges during the peak load period of production, effectively reducing the peak power consumption of industrial enterprises, avoiding the penalty of peak-valley difference and lowering the overall electricity cost of production.

Industrial Distribution Network Dynamic Capacity Expansion

Charges the battery when the industrial distribution network load is light and discharges to the load side when the load is heavy, increasing the peak load capacity of the factory's internal distribution network, meeting the power demand of high-power production equipment and avoiding the high cost of grid capacity expansion.

Industrial Microgrid Integration

Cooperates with industrial photovoltaic power stations, wind power generation, diesel generator sets and industrial production loads to build an industrial microgrid system, coordinate the energy balance of the microgrid, improve the absorption rate of on-site renewable energy, and reduce the dependence on the public power grid.

Provides reliable off-grid power supply for key industrial production lines, precision processing equipment, industrial control systems and data monitoring centers in case of grid outage, avoiding production interruption and huge economic losses caused by power failure.

Smooths the output power fluctuation of industrial distributed renewable energy power generation systems (PV/wind), stabilizes the power supply to industrial loads, and ensures the stable operation of production equipment sensitive to power quality.

Industrial Demand Response

Quickly responds to the demand response signals issued by the power grid, adjusts the charging and discharging state of the energy storage system in real time, assists the power grid in peak regulation and frequency modulation, and helps industrial enterprises obtain grid demand response subsidies.

High-power Industrial Load Energy Supply

Provides stable and continuous power supply for high-power, intermittent industrial production loads, optimizes the load curve of the factory, and improves the efficiency of power utilization of production equipment.

Integrates battery clusters, PCS, MPPT, STS, liquid cooling, fire protection, BMS and EMU in one cabinet, realizing system productization, reducing the floor space of industrial sites, simplifying on-site installation and realizing rapid deployment of industrial energy storage systems.

Modular Scalable Architecture for Industrial Expansion

Rack-mounted modular PCS supports multi-machine parallel connection, and the number of PCS modules and battery capacity can be customized according to the production scale and energy storage demand of industrial enterprises, meeting the step-by-step expansion of industrial energy storage capacity.

Precision Liquid Cooling Thermal Management for High Load

6kW embedded liquid cooling unit with cooling/heating dual mode, precise control of battery module temperature difference ≤5°C and internal ambient temperature ≤40°C, ensuring the stable operation of the energy storage system under long-term high-load industrial working conditions and slowing down battery attenuation.

Dual-level BMS with 3-stage Industrial Safety Protection

BMU (battery module level) + BCU (battery cluster level) dual-level design, with high-precision real-time monitoring of battery cell voltage, temperature and current, and 3-stage software protection (power reduction/PCS standby/relay cut-off), realizing active early warning and passive protection of battery system faults.

Cabinet-level Intelligent Fire Protection for Industrial Safety

Equipped with smoke detector, temperature-sensing detector, S-type aerosol fire extinguishing device and pressure relief window, with fire warning threshold of 69°C/CO≥300ppm/H₂≥300ppm, realizing early fire warning, rapid suppression and explosion pressure relief, eliminating fire risks in the initial stage of industrial site.

IP54 & C3 Anti-corrosion for Industrial Outdoor Environment

IP54 dustproof and waterproof grade combined with C3 anti-corrosion treatment, adapting to various outdoor industrial environments such as factory areas, industrial parks and mining areas, with strong resistance to dust, rain, snow and mild corrosive air, no need for additional protective buildings.

Industrial-grade Intelligent Management & Remote Operation

Built-in industrial-grade EMU supports real-time data aggregation, energy management strategy formulation, remote OTA upgrade and cloud-edge interaction, realizing unmanned operation and centralized monitoring of multiple energy storage cabinets in industrial parks, reducing the manual operation and maintenance cost of enterprises.

High Power Quality & Rapid Response for Industrial Load

Charge-discharge conversion time ≤100ms, low current distortion rate, 100% unbalanced load capacity, adapting to the characteristics of high-power, intermittent and unbalanced industrial production loads, ensuring the power quality and stable operation of industrial production equipment.

Complete Industrial Standard Compliance & Certification

Complies with national and international industrial energy storage standards (GB51048, IEC 62619, UL 9540A, etc.), and the product materials meet RoHS environmental protection requirements, meeting the safety and environmental protection standards of industrial production sites in various countries and regions.

Adopts industrial-grade components and structural design, with IP54 protection and C3 anti-corrosion grade, which can stably operate in various outdoor industrial environments, and the liquid cooling system ensures the system's adaptability to high-load industrial working conditions, with higher reliability than commercial energy storage products.

Precision Liquid Cooling, Extend Battery Service Life

The embedded liquid cooling system has higher heat dissipation efficiency than air cooling, precisely controlling the battery temperature and temperature difference, effectively slowing down the battery SOH attenuation, extending the battery cycle life by more than 30%, and reducing the replacement cost of industrial energy storage systems.

Multi-dimensional Safety Protection, Ensure Industrial Production Safety

Dual-level BMS 3-stage protection + cabinet-level intelligent fire protection + industrial-grade structural design form a three-dimensional safety defense system, eliminating safety hazards such as overcharge, over-temperature, short circuit and fire, and ensuring the safety of industrial production sites and equipment.

Modular Expansion, Match Industrial Production Scale Growth

Modular PCS and battery cluster design support on-demand capacity expansion, and industrial enterprises can expand the energy storage capacity step by step according to the expansion of production scale, without replacing the whole system, which has high cost performance and flexible matching with production demand.

Intelligent Unmanned Operation, Reduce Industrial O&M Cost

The built-in EMU supports remote monitoring, OTA upgrade and automatic energy management strategy execution, realizing unmanned operation of the industrial energy storage system, reducing the manual operation and maintenance personnel of the enterprise, and lowering the long-term operation and maintenance cost.

High Power Quality, Adapt to Industrial Load Characteristics

With fast charge-discharge conversion, low harmonic distortion and strong unbalanced load capacity, it is perfectly adapted to the characteristics of high-power, intermittent and unbalanced industrial production loads, avoiding the impact of power quality on industrial production equipment and improving production efficiency.

All-in-One Design, Realize Rapid Industrial Deployment

The fully integrated design eliminates the need for on-site assembly of multiple components, reduces the floor space of industrial sites, shortens the on-site installation and commissioning time, and realizes the rapid deployment of industrial energy storage systems, which can be put into use quickly to meet the production demand.

Professional Industrial Energy Management, Maximize Economic Benefits

Supports a variety of industrial-oriented energy management strategies such as peak shaving, load regulation, demand response and microgrid integration, which can effectively reduce the electricity cost of industrial enterprises, obtain grid subsidies and improve the overall economic benefits of industrial production.

A: The cabinet is designed for industrial scenarios with a nominal charge/discharge power of 100kW and a rated energy of 261.24kWh, with a DC nominal voltage of 832Vdc and an AC nominal voltage of 400Vac (3P4W), matching the power demand of industrial production loads.

A: Yes, it is specially designed for industrial outdoor use, with IP54 dustproof and waterproof grade and C3 anti-corrosion grade, which can adapt to the outdoor industrial environments such as factory areas, industrial parks with dust, rain, snow and mild corrosive air, and realize stable operation without additional protective buildings.

A: The 6kW embedded liquid cooling system has cooling/heating dual mode, which can precisely control the battery module temperature difference within 5°C and the internal ambient temperature below 40°C, effectively solving the heat dissipation problem of the energy storage system under long-term high-load industrial working conditions, slowing down battery attenuation and ensuring the stable operation of the system.

A: The cabinet uses industrial-grade Lithium Iron Phosphate (LFP) cells with high safety and long cycle life, consisting of 5 battery packs (1P52S, 52.24kWh each) in a 1P260S cluster connection mode, meeting the high-energy demand of industrial production.

A: The dual-level BMS (BMU+BCU) has 3-stage software protection for industrial scenarios: Level 1 (request power reduction), Level 2 (PCS standby), Level 3 (relay cut-off). It also has high-precision parameter monitoring, SOC/SOH dynamic estimation, passive equalization and fault self-diagnosis functions, realizing all-round protection of the battery system in industrial working conditions.

A: It is equipped with a cabinet-level intelligent fire protection system specially designed for industrial scenarios, including smoke detector, temperature-sensing detector, S-type aerosol fire extinguishing device and pressure relief window. It can realize fire early warning at 69°C/CO≥300ppm/H₂≥300ppm, rapid fire suppression and explosion pressure relief, eliminating fire risks in the initial stage of industrial sites.

A: Yes, the rack-mounted modular PCS supports multi-machine parallel connection, and industrial enterprises can customize the number of PCS modules and battery capacity according to the expansion of production scale and energy storage demand, realizing step-by-step capacity expansion without replacing the whole system.

A: BMS communicates with EMS via RS485, and the built-in industrial-grade EMU supports network communication and cloud-edge interaction with the upper monitoring platform, with functions such as real-time data upload, remote monitoring, automatic energy management strategy execution and OTA remote upgrade, realizing unmanned operation of industrial energy storage systems.

A: The installation space requires ≥2.5m in the front and ≥1.0m in the back (for industrial ventilation and maintenance of large equipment); the foundation needs to be flat, dry, free of standing water, and able to bear the weight of ~3t of the cabinet without shaking, meeting the industrial site installation standards.

A: The charging temperature range is 0°C~+55°C, the discharging temperature range is -20°C~+55°C, and the storage temperature range is -30°C~+60°C, with wide temperature adaptability, which can meet the temperature requirements of outdoor industrial sites in most regions.

A: Yes, it has an independent off-grid working mode with an AC side nominal power of 100kVA, 100% unbalanced load capacity and THDU ≤3% (linear load), which can provide reliable emergency backup power for key industrial production lines, industrial control systems and precision processing equipment, avoiding production interruption caused by power failure.

A: The product complies with a number of national and international industrial energy storage and battery safety standards, including GB51048, IEC 62619, IEC 63056, UL 9540A, etc., and the materials are RoHS compliant, meeting the safety and environmental protection requirements of industrial production sites in various countries and regions.

A: The cabinet adopts self-powered auxiliary power supply mode, with a capacity of ≤6.3kW and a supply current of ≤28.7A, which does not depend on the external power grid, ensuring the normal operation of the control and protection system of the energy storage cabinet in the event of industrial power grid outage, and improving the system's reliability.

A: The cabinet has a C3 anti-corrosion grade, which can resist the mild corrosive air in coastal industrial parks, factory areas with chemical gas and other industrial environments, and is suitable for outdoor installation in most industrial sites except for strong corrosive environments.