A Power Transformer Condition Assessment Method Based on Fuzzy Nearness Degree and Improved Cloud Matter-element Model

Abstract

In order to solve the problems of subjectivity, limitation of decision method and only considering the defect of single fuzziness in transformer condition assessment, a condition assessment method of power transformer based on fuzzy nearness and improved cloud matter-element model is proposed. Considering the randomness and fuzziness of transformer at the condition level boundary, the cloud matterelement model is used to construct the basic framework of condition assessment. Then, in order to take into account the clarity and fuzziness of the 3En rule and the 50% association degree rule, and to avoid conflicts of condition conclusions, cloud matter-element model is improved by cloud entropy optimization algorithm to calculate the membership of corresponding level of evaluation index. In addition, based on the multi-objective classification algorithm of fuzzy nearness degree, the evaluation index and asymmetric nearness vector of each condition level are calculated, the positive and negative ideal levels are determined by Technique for Order Preference by Similarity to Ideal Solution (TOPSIS), and the condition of the transformer is determined according to each asymmetric nearness vector and symmetric nearness of the positive and negative ideal levels. Taking two 220kV oil-immersed power transformers as examples, the validity and accuracy of the method are proved.