In modern power systems, dry transformers are popular as important power equipment. It has significant advantages: it does not require liquid insulating agents, improves environmental protection and safety, and has the characteristics of high efficiency and simplified maintenance. In various fields, dry-type transformers have demonstrated excellent stability and adaptability.

Dry transformers do not use liquid insulating agents and are more environmentally friendly than traditional oil-immersed transformers. Oil-immersed transformers may experience oil leakage or oil pollution during operation, bringing certain pollution risks to the environment. Dry-type transformers use solid insulating materials, so there is no problem of liquid leakage, which greatly reduces the risk of environmental pollution and is in line with the concept of sustainable development.

Because oil is not used as an insulating medium, dry-type transformers are superior in fire protection performance. Oil-immersed transformers may cause fires in the event of failure, while dry-type transformers do not contain flammable liquids, so the risk of fire is greatly reduced. Therefore, in some places with higher safety requirements, such as commercial buildings, hospitals, subway stations, etc., dry-type transformers are more likely to be selected.

The insulation material of dry transformers usually has excellent electrical properties, which can reduce energy loss and improve power transmission efficiency. Compared with oil-immersed transformers, dry-type transformers can transmit electrical energy more effectively during operation, reducing energy waste and reducing power losses. This is important for improving the overall efficiency of the power system, helping to reduce energy costs and reduce reliance on traditional energy resources.

Dry transformers do not require liquid insulating agents, making them easier to maintain and inspect. Oil-immersed transformers need to remove liquid insulating agent during maintenance, and the operation is relatively complicated. Dry-type transformers are not subject to such restrictions, and maintenance is simpler and more convenient. This reduces maintenance costs and maintenance cycles, and improves equipment reliability and ability to continue stable operation.

Dry transformers are more adaptable because they are not affected by ambient temperature and humidity. It can operate in harsher environmental conditions, such as high altitudes, high or low temperature environments, and humid or corrosive climate conditions. This enables dry-type transformers to be widely used around the world and to provide stable performance in a variety of climate and geographical environments.

Dry transformers have many advantages, making them an indispensable and important part of modern power systems. With the continuous advancement of technology and the promotion of applications, dry-type transformers will play an increasingly important role in the future power field and make greater contributions to building a clean and efficient energy future.