Asset management in smart grids using improved Dissolved Gas Analysis

2015 International Conference on Power and Advanced Control Engineering (ICPACE) Pub Date : 2015-09-24 DOI:10.1109/ICPACE.2015.7274968

V. Srinivasan, B. Subathra, S. Srinivasan, S. Kannan

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引用次数: 2

Abstract

Asset Management Systems (AMS) are pivotal to build reliable and safe smart grids. An important function of AMS is the monitoring and diagnosis of the power transformers. Various tests are performed on power transformers to detect incipient faults. Among the available methods, Dissolved Gas Analysis (DGA) has been widely used and shown promise. However, interpreting the results of the DGA is challenging due to the availability of wide variety of methods such as Rogers ratio, Doernenburg ratio, key gas procedure of IEEE, Basic gas ratio and Duval triangle methods of IEC. The accuracy of the interpretation methods influences AMS performance leading to reliability issues in the grid. This investigation compares the accuracy of Duval method and basic gas ratio method to detect transformer faults from real-time fault data obtained from power transformers. Our results on data obtained from Electrical Research and Development Association for seven transformer incipient faults shows that the Duval method is accurate than the basic gas ratio method for identifying incipient transformer fault based on DGA results. Further, the basic gas ratio was not able to detect two of the seven faults. These results illustrate the need to integrate Duval method to detect power transformer faults within AMS.

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使用改进的溶解气体分析的智能电网资产管理

资产管理系统(AMS)是构建可靠、安全的智能电网的关键。AMS的一项重要功能是对电力变压器进行监测和诊断。对电力变压器进行各种试验以发现早期故障。在现有的方法中，溶解气体分析法(DGA)得到了广泛的应用。然而，由于罗杰斯比、Doernenburg比、IEEE的关键气体过程、IEC的基本气体比和Duval三角方法等多种方法的可用性，解释DGA的结果是具有挑战性的。解释方法的准确性会影响AMS的性能，从而导致电网的可靠性问题。比较了杜瓦尔法和基本气体比法对电力变压器实时故障数据进行故障检测的准确性。通过对电气研究与发展协会的7个变压器早期故障数据进行分析，结果表明，基于DGA结果的Duval法比基本气比法更准确地识别变压器早期故障。此外，基本气比不能检测到7个断层中的2个。这些结果说明了在AMS中集成Duval方法来检测电力变压器故障的必要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Conference on Power and Advanced Control Engineering (ICPACE)

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