The containerized battery energy storage system is a compact and transportable solution designed for efficient energy storage and distribution. It integrates battery units, control systems, and power conversion components within a standardized enclosure, enabling simplified deployment and centralized management. The system supports various operating modes and can coordinate with different energy sources, including renewable generation and grid supply. Its modular configuration allows flexible scaling to match project requirements. Designed for stability and adaptability, it provides consistent power support across commercial and industrial environments, helping improve energy efficiency and ensuring reliable operation under varying load condition
| Item / Project | Specification / Parameter |
|---|---|
| Rated Energy | 2.6MWh |
| Charge/Discharge Power | 630 kW |
| Rated DC Voltage | 1331.2 V |
| Rated AC Voltage | 400 V |
| AC Output Type | Three-phase, three-wire (Dy11) |
| Isolation Mode | Frequency Isolation |
| Switch Time | <20 ms |
| Operating Temperature Range | -10°C ~ +50°C |
| Operating Humidity Range | ≤90%, Non-Condensing |
| Operating Mode / Main Function | Grid AGC/AVC, Grid Peak Shaving, Wind and Solar Power Storage, Peak-Valley Arbitrage |
| Temperature Control / Heat Management | Air Conditioner + Fan + Heater |
| Fire Protection | Heptafluoropropane or Perfluorohexanone |
| Communication | IEC61850 + IEC104, Ethernet, RS485 |
| Dimensions | 6096 mm × 2438 mm × 2896 mm |
| Protection Degree | IP54 |
If you would like to explore the full capabilities of our containerized battery energy storage system, understand how it can enhance your operational efficiency, or discuss a customized solution tailored to your project requirements, please feel free to contact our team for detailed information and professional guidance.
Choosing the right energy storage solution plays a vital role in ensuring efficiency, reliability, and long-term energy sustainability. Our containerized battery energy storage system is designed to provide a highly integrated, flexible, and scalable solution for commercial and industrial applications that demand stable and efficient power management.
One of the key advantages of this system is its fully integrated container design, which combines battery modules, power conversion equipment, thermal management, and control systems into a single unit. This significantly reduces installation time and simplifies deployment, allowing businesses to implement energy storage solutions quickly and efficiently without complex on-site assembly.
The system is built using advanced LiFePO4 battery technology, known for its high safety standards, long operational lifespan, and consistent performance. With an extended cycle life, it ensures long-term reliability while lowering maintenance frequency and overall operational costs. This makes it an ideal solution for projects requiring durable and cost-effective energy storage.
Another important benefit is its high scalability and adaptability. The containerized design allows multiple units to be deployed together, forming a larger energy storage network. This enables users to expand their system capacity as energy demands grow, without major infrastructure modifications. It provides flexibility for both current applications and future expansion.
The integrated intelligent energy control system ensures precise management of power flow, allowing optimized charging and discharging based on real-time demand. It supports efficient energy allocation, helping reduce peak electricity costs and improve overall system performance. Advanced monitoring functions also enable users to track system status remotely and maintain operational transparency.
Additionally, the system is designed for multi-scenario compatibility, supporting integration with renewable energy sources such as solar and wind, as well as conventional grid power. This allows businesses to create hybrid energy solutions that improve energy efficiency and reduce dependence on traditional power sources.
Engineered with robust structural design and built to meet international standards, our containerized battery energy storage system delivers reliable performance in various environmental conditions. It provides a future-ready solution for modern energy challenges, combining efficiency, flexibility, and dependable operation.
This containerized system is designed for businesses requiring dependable backup power, peak shaving, and energy cost management. It operates in both grid-connected and off-grid modes, offering intelligent energy scheduling to maximize efficiency.
The containerized battery energy storage system supports flexible capacity scaling through modular design, allowing multiple containers to operate in parallel for larger energy projects. Its plug-and-play container format enables quick installation and minimal on-site engineering requirements.
The system uses high-grade LiFePO4 cells with excellent thermal stability and long service life. The container frame is built from reinforced steel with anti-corrosion coatings for durability in outdoor or industrial environments.
Internal module layout maximizes energy density while maintaining efficient airflow and thermal control. High-conductivity busbars reduce energy loss and ensure stable current delivery.
The embedded Battery Management System (BMS) monitors voltage, current, temperature, and system health, providing multi-layer safety protection against overcharge, over-discharge, overheating, and short circuits.
An integrated Energy Management System (EMS) coordinates energy flow, manages peak shaving, supports renewable energy integration, and optimizes grid interaction.
The containerized battery energy storage system is ideal for commercial buildings, industrial facilities, renewable energy integration, microgrid projects, and emergency backup scenarios. It provides reliable power, flexible deployment, and scalable capacity for medium- and large-scale energy needs.
The system complies with CE, UL, IEC, UN38.3, and MSDS certifications, ensuring safe, reliable, and standardized operation for commercial and industrial energy storage projects.
Q1: How is a containerized battery energy storage system installed?
A: It is delivered as a pre-integrated unit and can be installed quickly on-site with minimal construction work.
Q2: What industries benefit most from this system?
A: It is widely used in commercial facilities, industrial parks, renewable energy projects, and infrastructure applications.
Q3: Can the system operate independently from the grid?
A: Yes, it supports off-grid operation as well as hybrid and grid-connected modes.
Q4: How is system performance monitored?
A: It includes intelligent monitoring with real-time data tracking and remote management capabilities.
Q5: Is the system easy to expand in the future?
A: Yes, additional container units can be connected to increase overall storage capacity.
All electrical and storage components are preassembled within a unified transportable structure before deployment.
Each container functions as a complete energy module with independent control capability.
Designed for immediate field setup with minimal civil engineering or on-site construction requirements.
Multiple containers can operate in coordinated clusters to form larger energy networks.
Internal components are physically separated from external conditions to reduce exposure impact.
Uniform container sizing allows global transport using conventional shipping infrastructure.
The containerized battery energy storage system can be utilized in mobile power deployment scenarios, temporary high-demand energy supply zones, emergency restoration and disaster response units, and remote industrial operation bases. It is also suitable for construction sites and short-term infrastructure projects that require quickly deployable and relocatable power support. The system provides flexible energy access for situations where conventional grid connections are limited, unstable, or unavailable.
Widely used in power grids to assist with load balancing, frequency regulation, and peak demand management, improving overall grid stability.
Commonly deployed in solar and wind farms to store excess energy and release it when generation is low, improving energy utilization efficiency.
Used in factories to stabilize power supply, reduce electricity costs, and ensure continuous operation during peak or unstable grid conditions.
Applied in shopping centers, office buildings, and public facilities to provide backup power and support energy optimization strategies.
Installed in mining sites, rural areas, and isolated industrial zones to provide reliable independent power supply without grid dependency.
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