Inversion detection method of oil-immersed transformer abnormal heating state

Transformer overheating faults have an important impact on the transformer safe and stable operation. Taking 10 kV oil-immersed transformer as the research object, using the indirect coupling analysis method of electromagnetic thermal fluid multi-physical field, the transformer heating characteristics under overheating faults, such as winding inter-turn short circuit and core multi-point grounding, are analysed, and the transformer abnormal heating state identification method is proposed based on the inversion of transformer top oil temperature rise. By inverting the transformer normal top oil temperature rise under different load rates and comparing it with the actual measured value, taking into account the top oil temperature rise inversion error, it is determined that when the top oil temperature rise measured value is higher than the inversion value by 2.9 K, it indicates the transformer is in an abnormal heating state, and the higher the deviation degree is, the deeper the degree of abnormal heating fault. The accuracy of the transformer abnormal heating state identification method is verified by the multi-working condition temperature rise test, which can provide a certain reference for the detection and maintenance of transformer abnormal internal heating faults.

Automated summary

This study focuses on the overheating faults of oil-immersed transformers and analyzes the heating characteristics of transformers under overheating faults using the electromagnetic thermal fluid multi-physical field indirect coupling analysis method. Based on the inversion of transformer top oil temperature rise, a method for identifying abnormal heating states of transformers is proposed. Through verification, this method can provide certain reference for the detection and maintenance of abnormal internal heating faults in transformers.