Reducing transformer losses can be achieved in several ways:
1。 Reduced load losses: The use of highly conductive materials, such as oxygen-free copper, can significantly increase the conductivity, thereby reducing load losses. In addition, the reduction of load loss can also be achieved by appropriately reducing the current density, improving the insulation structure, using semi-oil channels, prefabricated insulators, and complete winding transposition.
2。 Reduce the loss of other components: Improving the core structure, designing and controlling the leakage flux of the winding, adjusting the ampere turn balance, etc., can reduce the stray loss of structural parts such as fuel tanks. In addition, the use of corrugated fuel tanks, sheet radiators, and heat pipes instead of tubular radiators, and the replacement of old-fashioned radiators with new structural radiators can improve heat dissipation efficiency.
3。 Choose the right transformer model and voltage level: Choosing the right transformer model and voltage level according to the actual situation can reduce the loss of the transformer. Generally speaking, the higher the voltage level, the greater the loss of the transformer, so it is necessary to select the appropriate voltage level according to the actual needs.
4。 Adopt high-efficiency transformers: There are many high-efficiency transformers available on the market. These transformers use new materials and manufacturing processes to reduce transformer losses and improve the efficiency and stability of the power system.
5。 Improve the cooling effect of the transformer: When the temperature of the transformer increases, both iron and copper losses increase. Therefore, improving the cooling effect of the transformer can reduce the temperature of the transformer and reduce losses. There are many new transformer cooling systems on the market, such as air cooling, water cooling, oil cooling, etc., which can improve the cooling effect of transformers.
To sum up, reducing transformer losses requires a number of aspects, including selecting the right transformer model and voltage level, using high-efficiency transformers, and improving the cooling effect of transformers. These measures can reduce transformer losses and improve the efficiency and stability of the power system.