37kV Photovoltaic Power Boosting Substation is the core equipment of photovoltaic power stations. During the design, construction, and operation processes, the substation significantly reduces its environmental impact by adopting green, low-carbon technologies and eco-friendly materials, meeting the requirements of sustainable development.
37kV Photovoltaic Power Boosting Substation is the core equipment of photovoltaic power stations. During the design, construction, and operation processes, the substation significantly reduces its environmental impact by adopting green, low-carbon technologies and eco-friendly materials, meeting the requirements of sustainable development.
It has the following features and performance:
Efficient Integration: The boosting transformer, inverter, and other equipment are integrated into one unit, with a compact structure, small footprint, and easy installation.
High Reliability: Advanced materials and processes are used, offering low loss, high efficiency, and strong overload capability, with an operational efficiency of up to 99.72%.
Strong Environmental Adaptability: It has excellent waterproof, dustproof, and corrosion-resistant capabilities, making it suitable for harsh environments such as high temperatures, low temperatures, and high humidity.
Intelligent: Equipped with an intelligent control system, it supports remote monitoring, fault diagnosis, and automatic protection functions.
Energy Saving and Environmental Protection: Complies with the latest energy efficiency standards, with low operational loss, low noise, and environmentally friendly characteristics.
Flexible Configuration: The equipment capacity and connection methods can be flexibly selected based on the scale and needs of the photovoltaic power station.
These features make it an ideal choice for photovoltaic power stations, effectively improving generation efficiency and system stability.
The high-voltage section uses a 37kV vacuum load switch combined with a fuse, which provides quick protection in case of fault currents.
The transformer uses a dry-type transformer, which is compact, free from liquid insulating media, avoiding the fire and explosion risks of oil-immersed transformers. It has strong environmental adaptability and can operate stably in special environments such as high altitudes and humidity.
The low-voltage switchgear typically operates at voltages of 690V, 800V, or 1140V, and can be configured with various brands of molded case circuit breakers, featuring high interrupting capacity and the ability to withstand large currents. The incoming circuit breaker has three-stage current protection functions, offering better protection for the circuits.
