Methanol as an ageing marker for in service transformers

2017 Annual Pulp, Paper And Forest Industries Technical Conference (PPFIC) Pub Date : 2017-06-01 DOI:10.1109/PPIC.2017.8003876

Charles E. Bare, S. Merritt

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引用次数: 6

Abstract

Measurement of transformer remaining useful life has long been a goal for responsible asset management. Most testing laboratories offer furan concentration testing as a suitable method. The interpretive method of choice is usually the Chendong equation expressed in practical terms as degree of polymerization of the paper with new paper at about 1000 and end of life at around 300. Typical mill transformers have insulation ratings expressed as 55° C rises for plain kraft or 65° C which corresponds to thermally upgraded kraft paper (TUP). It has been determined that TUP paper does not produce Furans and thus provides a false indicator of the cellulose breakdown. There are several papers currently in circulation that have demonstrated that a measurement of Methanol (MeOH) may be a better method to determine ageing of the TUP insulation and also for transformers with regular kraft paper insulation. The objective of this paper is to provide an overview of the reasons why furans should not be used as the basis for measuring degradation of thermally upgraded paper, why methanol should be so used, and to compare actual furans and methanol test data for service aged transformers in a process industry application.

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甲醇作为在役变压器的老化标志

变压器剩余使用寿命的测量一直是负责任的资产管理的目标。大多数测试实验室提供呋喃浓度测试作为合适的方法。选择的解释方法通常是陈东方程，用实际术语表示为新纸的聚合度在1000左右，寿命结束在300左右。典型的轧机变压器的绝缘等级表示为普通牛皮纸的55°C上升或热升级牛皮纸(TUP)的65°C上升。已经确定TUP纸不产生呋喃，因此提供了纤维素分解的错误指示。目前有几篇论文表明，甲醇(MeOH)的测量可能是确定TUP绝缘老化的更好方法，也适用于使用普通牛皮纸绝缘的变压器。本文的目的是概述为什么不应该使用呋喃作为测量热升级纸降解的基础，为什么应该使用甲醇，并比较在过程工业应用中使用老化变压器的实际呋喃和甲醇测试数据。

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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2017 Annual Pulp, Paper And Forest Industries Technical Conference (PPFIC)

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