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The Imax100 – 215W energy storage system is equipped with a “6 – layer” safety protection mechanism. This multi – tiered approach comprehensively safeguards against various potential risks, from electrical overloads to thermal runaway scenarios. Each layer is meticulously designed to complement the others, creating a robust safety net that has successfully maintained a zero – accident record in real – world applications.
This system undergoes a series of stringent tests. It has successfully passed numerous thermal runaway and safety tests. These tests simulate extreme conditions to verify the system’s ability to withstand and mitigate risks. By excelling in these tests, the system demonstrates its high reliability and safety standards, giving users peace of mind.
The system boasts an impressive ability to switch between grid – connected and off – grid modes without any noticeable interruption. This seamless transition is crucial for applications where continuous power is essential. Whether in commercial facilities or micro – grids, it ensures that operations remain uninterrupted, enhancing overall system reliability.
This energy storage solution is highly versatile. It finds applications in industrial and commercial energy storage, helping businesses manage their power usage efficiently. In micro – grids, it enhances energy self – sufficiency. For substation area energy storage, it plays a key role in stabilizing the local power grid, making it a valuable asset in various energy scenarios.
The system significantly contributes to improving grid regulation. It enhances the flexible regulation capabilities of distribution substation areas. By being able to store and release energy as needed, it increases the overall flexibility of the grid, allowing for better response to fluctuations in power demand and supply.
Investing in this energy storage system offers substantial long – term economic gains. With a one – time investment, users can reap the benefits for as long as 20 years. These benefits include reduced energy costs, potential revenue from energy arbitrage, and extended equipment lifespan, making it a highly cost – effective solution.
The system features a highly efficient integrated design that combines photovoltaic and storage functions. This integration reduces both Capital Expenditure (CAPEX) and Operational Expenditure (OPEX). By streamlining the energy generation and storage process, it minimizes initial setup costs and ongoing operational expenses, improving overall project economics.
| Category | Parameter | Description |
|---|---|---|
| DC Battery Parameters | Cell Type | Employs LFP 280Ah cells, known for high safety and long cycle life, providing a solid base for the energy storage system. |
| Specification | Features 100kW/215kWh capacity, fulfilling certain – scale power storage demands. | |
| Battery System Configuration | Set up as 215.04kWh/1P240S, ensuring optimal performance and stability of the battery system. | |
| Battery Voltage Range | Spans from 672 – 864Vdc, allowing adaptation to diverse working conditions. | |
| System Rated Voltage | 768Vdc, offering a stable voltage environment for normal system operation. | |
| AC – side Parameters | AC Rated Power | Amounts to 100kW, capable of delivering substantial AC power. |
| AC Maximum Power | 110kW (sustained for 1min), offering higher power output in a short time to meet sudden high – power requirements. | |
| AC Current Distortion Rate | ≤3%, guaranteeing high – quality output current and minimizing interference with the power grid and other equipment. | |
| Imbalance | 100% (specific characteristics play a crucial role according to actual application scenarios). | |
| Grid Rated Voltage | 400Vac/3P + N + PE, in line with common grid voltage standards. | |
| Power Factor Adjustable Range | – 1~1, allowing adjustment as per actual needs to enhance energy utilization efficiency. | |
| Rated Grid Frequency | 50Hz/60Hz, suitable for grid frequency requirements in different regions. | |
| System Parameters | Maximum System Efficiency | ≥89%, with high – efficiency energy conversion reducing energy wastage. |
| Charge – Discharge Rate | 0.5P, contributing to extending battery life. | |
| Depth of Discharge | Reaches 95%, fully utilizing the battery’s storage capacity. | |
| Cycle Times | ≥8000 times, indicating a long service life for the battery and reducing usage costs. | |
| Charge – Discharge Switching Time | <100ms, ensuring the system’s quick response. | |
| Communication Interface | Ethernet/RS485, facilitating communication and data exchange with external devices. | |
| Protection Level | IP55, effectively preventing dust and water ingress, adapting to different working environments. | |
| Cooling Method | Battery uses air – cooling, and electrical compartment adopts forced air – cooling, ensuring normal operation under various temperature conditions. | |
| Operating Temperature | Ranges from – 25~55°C, enabling operation in harsh environments. | |
| Relative Humidity | 0~95%RH, non – condensing, suitable for different humidity environments. | |
| Noise | Kept at a low level to reduce impact on the surrounding environment. | |
| Altitude | ≤2000m (derating operation above 2000m), suitable for use in different altitude areas. | |
| Fire – fighting System | Equipped with smoke/temperature detection + total flooding gas fire – fighting (aerosol), ensuring system safety in case of fire. | |
| Dimensions (Width * Depth * Height) | 125013002400(mm), with reasonable size design for easy installation and layout. | |
| Weight | 2630Kg, requiring consideration of weight factor in design and installation. | |
| Compliance Standards | Complies with standards such as UN3536, UN38.3, IEC62619, UL9540A, and UL1973, ensuring product quality and safety reach international levels. |
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.
