NON WALK-IN TYPE

Intended for securely storing batteries without the need for human entry, often used in scenarios like backup power systems and industrial setups.

Features

Scalable system that can be expanded by adding more containers. Utilizes advanced battery technologies for improved performance and durability. Built-in monitoring and control systems for remote operation and data analysis. Delivers stored energy when renewable sources are not producing. Fast response time for dynamic grid stabilization. Includes smart algorithms for efficient energy utilization and storage. Provides backup power for essential operations during power outages.

Appearance of Container

Parameters

Non-walk-in energy storage systems offer a range of features and usabilities, from grid stabilization and renewable integration to backup power and support for critical facilities. The choice of system depends on the specific requirements of the application and desired outcomes.

2.74 MW/5.48 MWh — 40HC

Model
E22010
DC Side
Battery Type
LiFePO4 Battery
Cell Capacity
280Ah
Cell Connection
340S1P*18
Nominal Voltage
1088.0V
Voltage Range
884.0-1224.0V
Rated Energy
5.48MWh
C-Rate
0.5C/0.5C
System Efficiency
≥92%

2.74 MW/5.48 MWh — 45HC

Model
E22005
DC Side
Battery Type
LiFePO4 Battery
Cell Capacity
210Ah
Cell Connection
408S1P*20
Nominal Voltage
1305.6V
Voltage Range
1060.8-1468.8V
Rated Energy
5.48MWh
C-Rate
0.5C/0.5C
System Efficiency
≥92%

3.65 MW/3.65 MWh — 35HC

Model
E23004
DC Side
Battery Type
LiFePO4 Battery
Cell Capacity
200Ah
Cell Connection
408S1P*14
Nominal Voltage
1305.6V
Voltage Range
1060.8-1468.8V
Rated Energy
3.65MWh
C-Rate
1C/1C
System Efficiency
≥92%

Product Advantages

High Degree Automation​

The new battery module adopts all-in-one Aluminum tape laser welding and flexible circuit board integration technology. The connection tape of cell and sampling of temperature and voltage are laser welded, the whole process is completed at the fully automated production line with very less manual process. This can reduce the manufacturing cost effectively, and improve the product stability greatly.​

Low Packing Cost​

The new battery module adopts non sub module design, the cells takes by robot and into battery case as packed. It can save the packing components of sub module and lower the packing material cost.​

Good Temperature Uniformity​

With the help of simulation analysis tools, multi simulating the internal heat dissipation of battery module. After accumulating experience, improves the sample module air in & out type and air duct design. After improving, now our battery module internal temperature difference can be controlled.

800V - 1500V DC System Test and Verification Platform​

We utilize container to pr-fabricated 800V-1500V DC system test and verification platform, which have the capability to test and verify various complicated work conditions from module level to rack level. This can be used for our product R&D, test and improvement. It can improve the competitive advantages of product performance.​

Inquire product
Please contact us if you have any question related to Non Walk-in type.
You may call, e-mail or fill out the contact form and send us a message. Our sales representatives will contact you as soon as possible.

Call Us

Email Us