Recently, the SCU battery energy storage container BRES successfully passed the IEC62933 series certification and became a grid-connected electrochemical energy storage system that meets international standards. The IEC62933 series certification is a core standard system recognized globally in the energy storage industry, covering strict requirements for energy storage systems in terms of safety, reliability, and performance. SCU’s certification this time indicates that the design, manufacturing and performance of its energy storage products have fully reached the industry’s excellent level, laying a solid foundation for providing more reliable and safe energy storage solutions to global customers.
IEC62933 series certification: The authoritative standard of the energy storage industry
The IEC62933 series certification is formulated by the International Electrotechnical Commission (IEC) and is a standard system for electrochemical energy storage systems. It focuses on evaluating the overall performance, safety, environmental adaptability and life cycle management capabilities of energy storage systems in grid-connected applications. The certification covers multiple links from system design, and installation to operation and maintenance, aiming to ensure the safety and applicability of energy storage systems worldwide.
The passing of this certification is of great significance to the safety of the SCU energy storage system
- Ensure electrical safety
Energy storage systems involve the operation of high-voltage power supplies and large currents, and electrical safety is the primary consideration. IEC62933-2 specifies the safety requirements for the electrical part of the energy storage system, including circuit design, wiring and connection, equipment insulation, etc. These requirements are intended to prevent the occurrence of arcs and sparks and reduce the risk of electrical accidents.
- Ensure mechanical safety
Energy storage systems involve various mechanical equipment and components, such as battery packs, energy storage devices, control systems, etc. The safety of these mechanical equipment is directly related to the stability and reliability of the entire system. IEC62933-2 specifies the safety requirements for the mechanical part of the energy storage system, including structural strength, seismic performance, protective measures, etc., to ensure the mechanical stability and reliability of the energy storage system under different working conditions.
- Prevent fire risks
Because energy storage systems involve energy-intensive devices such as batteries, they have a high risk of fire. IEC62933-2 puts forward strict requirements for the fire safety of energy storage systems, including thermal management of batteries, prevention of overcharging and over-discharging, and fire extinguishing systems. These requirements help prevent and control the fire risks of energy storage systems and ensure the safety of personnel and property.
- Protect environmental safety
The environmental safety of energy storage systems involves the selection, use and handling of materials and chemicals. IEC62933-2 requires environmental adaptability and environmental friendliness of energy storage systems, and clarifies the safe management of chemicals and the disposal of waste. These requirements help reduce pollution and impact on the environment and improve the sustainability of energy storage systems.
SCU BESS Container: Excellent Solution Under International Certification
SCU’s energy storage product, as the core system that has obtained IEC62933 certification this time, has been widely used in industrial, commercial, dynamic capacity expansion and microgrid scenarios. Its modular design, high energy density and intelligent control functions enable it to provide customized solutions for different complex applications.
- Grid compatibility: The BRES system supports high-precision power regulation and grid frequency response, and can easily integrate into the diverse global grid environment.
- Rapid deployment capability: The SCU energy storage container system adopts an integrated design, which is easy to transport and install, greatly shortening the customer’s deployment cycle.
- Intelligent management: Equipped with advanced BMS and EMS systems, the BRES system realizes efficient energy management and remote monitoring, and comprehensively improves operating efficiency.
- High safety: The SCU energy storage system has undergone rigorous testing and evaluation to ensure that the system can operate stably under extreme conditions such as overload, short circuits, and high temperatures to avoid potential risks.
- Excellent performance: With an advanced battery management system (BMS) and system integration technology, the SCU energy storage system achieves high-efficiency energy management and flexible scheduling to meet the needs of grid-connected applications.
- Environmental protection and durability: SCU energy storage products use high-quality materials and green production processes to achieve a long life cycle while reducing environmental impact.
Promote the development of the global energy storage industry
The acquisition of IEC62933 certification is not only a recognition of the performance and quality of SCU energy storage products but also provides a solid technical guarantee for its further development of the global energy storage market. SCU will continue to drive development with innovation, focus on the research and development of safer, more efficient and intelligent energy storage solutions, and provide strong support for global energy transformation. The acquisition of IEC62933 certification also confirms SCU’s technological leadership and global layout capabilities in the field of energy storage, providing international high-quality energy storage services for more industries and regions.