How does the Amorphous Alloy Dry Type Transformer improve the overall efficiency of the power distribution system?

The Amorphous Alloy Dry Type Transformer performs well in improving the overall efficiency of the power distribution system.
Amorphous alloy materials have extremely low iron loss, which is only 1/3-1/5 of that of oriented silicon steel sheets, which means that the energy loss caused by core loss during the operation of the transformer is greatly reduced. Taking the rural power grid as an example, the traditional silicon steel sheet transformer used to have a large no-load loss when the load rate was low. The application of amorphous alloy dry-type transformers can reduce the no-load loss by about 75% and the no-load current by about 80%, effectively reducing the waste of electric energy during transmission and improving energy utilization efficiency.
Its efficient heat dissipation performance is also a key factor in improving efficiency. The amorphous alloy dry-type transformer adopts a special design and heat dissipation material to quickly dissipate the heat generated during operation and maintain the stable operating temperature of the transformer. This not only reduces the increase in resistance and energy loss caused by excessive temperature, but also extends the service life of the transformer, reduces maintenance costs and power outages caused by equipment failure, and indirectly improves the overall efficiency of the distribution system.
Furthermore, amorphous alloy dry-type transformers have a strong overload capacity. In the distribution system, there are sometimes short-term load peaks. Amorphous alloy dry-type transformers can withstand currents exceeding the rated load to a certain extent, and will not be prone to overheating and failures like traditional transformers, ensuring the continuity and stability of power supply, thereby improving the ability of the entire distribution system to cope with sudden load changes and improving the operating efficiency of the system.