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We employ single-cabinet liquid cooling and heat management. This approach effectively controls the temperature of battery cells, ensuring their stable operation. By maintaining optimal operating temperatures, it significantly enhances the overall performance and lifespan of the energy storage system.
The temperature difference among battery cells inside the cabinet is minimal. This strict control over temperature variations greatly improves the consistency of the entire system. Consistent cell performance leads to more reliable and efficient energy storage and release processes.
Our product features a modular design, allowing for both integrated machine modularization and highly adaptable parallel solutions. This flexibility enables easy customization and expansion according to different application scenarios and capacity requirements. Whether for small-scale or large-scale energy storage projects, it can be tailored to meet specific needs.
The structure is compact, with a floor area of only 1.9m³. This space-efficient design is particularly advantageous in situations where space is limited. It allows for easy installation in various environments, such as urban settings or confined industrial areas.
The single-cabinet capacity reaches 215kWh, indicating a high energy density. This means more energy can be stored within a given space. High energy density is crucial for improving the efficiency of energy storage systems and reducing the overall footprint.
With PACK precision liquid cooling channels and excellent temperature management, heat is dissipated efficiently. Precise control over the temperature of each PACK ensures that the system operates at its optimal thermal state. This not only enhances performance but also extends the service life of the components.
The product offers PACK-level fire protection, providing a high level of safety. Additionally, it supports flexible expansion. Users can easily increase the storage capacity as their needs grow, without having to replace the entire system. This makes it a cost-effective and future-proof solution for energy storage.
Utilizes LFP 280Ah cells. LFP (Lithium Iron Phophate) cells are renowned for their high safety standards, long cycle life, and stable electrochemical performance. This ensures reliable and durable energy storage for the system.
Available in 100kW/215kWh configurations. These specifications provide a balance between power output and energy storage capacity, catering to a wide range of energy storage needs.
Configured as 215.04kWh/1P240S. This configuration optimizes the performance and safety of the battery pack, ensuring efficient energy storage and release.
The system rated voltage is 768Vdc. This voltage level is suitable for high – power energy storage applications and ensures compatibility with various power conversion systems.
The battery voltage range is 672Vdc – 864Vdc. This wide voltage range allows for flexible operation and adaptation to different charging and discharging conditions.
The rated output power is 100kW. It can meet the power demands of medium – sized commercial and industrial applications.
The AC maximum power is 110kW (sustained for 1 minute). This short – term high – power output capability is useful for handling peak power demands.
The AC current distortion rate is ≤3%. Low current distortion ensures high – quality power output, reducing interference with other electrical equipment.
The imbalance is 100% (this might need further context in real – world, here we assume it’s a defined parameter indicating a certain state). It reflects a specific operating characteristic of the system under certain conditions.
The grid rated voltage is 400Vac/3P + N + PE, which is a common industrial and commercial power supply standard.
The power factor adjustable range is – 1~1. This allows for flexible adjustment of the power factor according to grid requirements, improving power quality and reducing reactive power losses.
The rated grid frequency is 50Hz/60Hz, making it compatible with different grid frequencies around the world.
The energy conversion efficiency is ≥89%. High efficiency reduces energy losses during the charging and discharging processes, improving the overall performance of the energy storage system.
The charge – discharge rate is ≤0.5P. This moderate rate helps protect the battery cells and prolongs their service life.
The discharge depth is 95%. It maximizes the utilization of the stored energy in the battery.
The cycle times are ≥8000 times. A high number of cycles indicates a long service life and cost – effectiveness of the system.
The communication interface supports Ethernet/RS485. This enables easy integration with other control systems and remote monitoring.
The protection level is IP55. It provides effective protection against dust and water ingress, ensuring reliable operation in various environments.
The battery compartment uses active liquid cooling, and the electrical compartment uses intelligent air cooling. This combined cooling approach ensures optimal operating temperatures for different components.
The operating temperature range is – 25~55°C. This wide temperature range allows the system to operate in diverse climatic conditions.
The relative humidity range is 0 – 95%RH. It can adapt to different humidity environments.
The working altitude is ≤2000m (derating operation above 2000m). This makes it suitable for use in various geographical locations.
The fire – fighting system includes full – fluorinated ketone PACK – level and cabinet – level fire protection, integrated cabinet – level water spray fire – fighting. This multi – level fire protection ensures high safety.
The dimensions are 140013502050mm. The compact size facilitates installation in limited spaces.
The weight is 2200kg. It is relatively easy to handle during installation and transportation.
It complies with UN3536, UN38.3, IEC62619, UL9540A, UL1973 standards. Compliance with these standards ensures product quality, safety, and reliability.
SunCare Hospital, a leading healthcare institution committed to sustainable operations and patient well-being, partnered with us to transition its energy source to solar. The project involved the full design and installation of a customized solar power system to reduce operating costs, increase energy reliability, and support the hospital's green initiatives.
This project was designed to meet the hospital’s energy needs while promoting sustainability, reducing costs, and ensuring uninterrupted service for patients and essential medical operations.
We provided a complete solar solution tailored to the hospital’s needs, ensuring performance, safety, and long-term energy savings without disrupting daily operations.
We analyzed usage patterns and infrastructure to design a system that meets specific energy needs.
Our team installed efficiently with zero interruption to hospital operations and strict safety procedures.
We created a solar layout that maximizes efficiency while matching the hospital’s structure and goals.
We integrated smart monitoring and backup support to ensure continuous power for critical medical equipment.
This project is more than just an energy upgrade, it is a commitment to health, sustainability, and community leadership. The SunCare Hospital solar installation reflects how renewable energy can enhance essential services without compromise.
Solarize brings cutting-edge clean energy solutions to life, empowering homes, businesses, and public spaces with sustainable power that transforms everyday living.
