Transformers based on environmental principles
Worldwide, awareness of fire prevention and environmental protection is increasing, especially in the choice and use of energy products. Replacing oil-immersed transformers by dry-type transformers is the only option for many users. In the manufacture of dry transformers, the focus should be on how to reduce the burning capacity of transformers, because dry transformer products are often installed in the area where people live and work, the lower the burning capacity, the safer it is for the personal environment. In addition, it is also necessary to consider the use of modern processes and new technologies to achieve the recycling of some valuable materials. For example, copper (traditional resin-cast dry-type transformer copper is difficult to recycle). The above two points have become the criteria for measuring the advanced degree of dry-type transformers.
Product/performance characteristics
(1) Strong Overload Capability:
The transformers have a robust overload capacity, allowing them to handle sudden increases in load or temporary overloads. This ensures reliable operation during peak demand hours or unexpected system fluctuations.
(2) High Flame Retardancy:
The transformers possess excellent flame retardancy, ensuring safe operation in the event of any fire or overheating conditions. This feature significantly reduces the risk of fire hazards and protects against potential damage to the transformer and surrounding equipment.
(3) Advanced Core Structure:
The transformer's iron core, also known as the magnetic core, is designed with advanced technology. This ensures efficient magnetic flux transfer, reduced eddy current losses, and improved thermal performance. The advanced core structure contributes to the transformer's overall efficiency and reliability.
(4) High Core Insulation and Sturdy Clamping Components:
The transformer's iron core has excellent insulation properties, preventing electrical leakage and ensuring safe operation. The clamping components, which hold the core and windings in place, are sturdy and reliable, providing long-term stability and durability.
(5) Good Heat Dissipation for High and Low Voltage Coils:
The transformers are designed with excellent heat dissipation properties for both the high and low voltage coils. This ensures that the coils operate at optimal temperatures, preventing overheating and extending their service life. The good heat dissipation also contributes to the transformer's overall efficiency and reliability.
