将Duval - Pentagon集成到多方法解释中，提高溶解气体分析技术的准确性

2021 IEEE International Conference on the Properties and Applications of Dielectric Materials (ICPADM) Pub Date : 2021-07-12 DOI:10.1109/ICPADM49635.2021.9493929

Heri Sutikno, R. A. Prasojo, Suwarno

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引用次数: 4

摘要

溶解气体分析(DGA)是检测变压器绝缘油中由于变压器运行时受到的热应力和电应力而产生的气体异常的最有效方法。各种DGA解释技术发展迅速。每一种都有其优点和缺点。然而，一个油样有可能被误解。除此之外，工程师的经验和知识在主观预测DGA样本方面的作用仍然是最显著的。多方法解释技术是一种与多种解释技术相结合，提高一致性和准确率的方法。本文提出Duval - Pentagon Method (DPM)集成作为多方法技术的最新诠释。基于iec10tc数据库建立了该方法，并用已有的52个样本进行了验证。结果表明，采用DPM集成的多方法在准确性和一致性方面均有显著提高。与其他DGA解释技术相比，该方法的准确率为96.15%，一致性为90.48%。

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Integration of Duval Pentagon to the Multi-Method Interpretation to Improve the Accuracy of Dissolved Gas Analysis Technique

Dissolved Gas Analysis (DGA) is the most effective method for detecting the gas abnormality in transformer insulating oil due to the thermal and electrical stresses received when the transformer operates. Various DGA interpretation techniques have developed rapidly. Each has its advantages and disadvantages. However, it is possible to misinterpret one oil sample. Besides that, the engineer's experiences and knowledge still have the most significant role in predicting the DGA sample subjectively. The multi-method interpretation technique is a method that is quite relevant to cover various techniques in increasing consistency and accuracy rate. This paper proposes Duval Pentagon Method (DPM) integration as the recent interpretation of the multi-method techniques. The method was developed based on IEC 10 TC database, then validated with 52 samples from previous researches. The results showed that there was a significant increase in accuracy and consistency rate with the multi-method using DPM integration. This method produces the highest level of accuracy, 96.15%, and consistency of 90.48% compared to others DGA interpretation techniques.

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2021 IEEE International Conference on the Properties and Applications of Dielectric Materials (ICPADM)

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