Chinese-style safe substations put into use, strengthening the safety defense line of power operation

Recently, Chinese-style substations that integrate local design concepts with multiple safety protections have been put into application one after another. With reliable performance and complete functions, they provide solid support for the stable operation of urban and rural power grids.

 

These substations are based on domestic electricity usage scenarios and environmental characteristics. They have comprehensively optimized in terms of structural layout, equipment selection, and protection mechanisms, with the core focusing on creating a full-process guarantee system for safe operation. As key equipment within the station, the Transformer undertakes the core tasks of voltage conversion and power distribution, serving as the foundation for ensuring stable power supply. According to different scenarios, the station flexibly configures Dry Type Transformer and Oil Immersed Transformer. The former, with advantages such as fireproofing, flame retardancy, and no leakage, is suitable for areas with dense populations and high environmental protection requirements; the latter, with its efficient heat dissipation and strong carrying capacity, meets the needs of large-capacity outdoor power supply scenarios.

 

Chinese-style substations are equipped with complete safety functions such as fault early warning, short-circuit protection, and anti-misoperation, which monitor the operating status of equipment in real time and respond quickly to abnormal situations. From equipment selection to system protection, the entire process follows the principle of prioritizing safety, taking into account both practicality and reliability.

 

The promotion and application of such substations not only meet the needs of domestic power grid construction but also enhance the safety protection level of power facilities, providing stable and safe power guarantees for industrial production and residents' lives, and promoting the development of power infrastructure towards greater safety, better adaptation, and higher efficiency.