Using insulation aging to size transformers in high-ambient temperature, secondary-selective applications

2012 Petroleum and Chemical Industry Conference (PCIC) Pub Date : 2012-09-01 DOI:10.1109/PCICON.2012.6549663

A. Helfrich, R. Carlson

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引用次数: 1

Abstract

The electrical distribution systems in industrial facilities often incorporate a secondary-selective design where loads are fed from redundant transformers normally loaded to less than 50% of their kVA rating. When transformers are operating in ambient temperatures above 30 °C, IEEE Std C57.91 provides guidelines on how to load the transformers to compensate for the accelerated insulation aging. This guide is not directly applicable to secondary-selective systems since it assumes the transformer is being sized to supply the entire load on a continuous basis. This paper describes an approach for using insulation aging to size the transformer with an example using actual historical temperature data from an oil-production facility in a Middle-East country. The paper will demonstrate that transformers operating in a secondary-selective application do not have to be derated even when operating at ambient temperatures far in excess of the rated 30 °C. The resulting safety and economic benefits of the lower transformer kVA rating cascade throughout the power system.

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在高环境温度、二次选择性应用中，使用绝缘老化来确定变压器的尺寸

工业设施中的配电系统通常采用二次选择设计，其中负载从冗余变压器馈电，通常负载低于其额定千伏安的50%。当变压器在高于30°C的环境温度下工作时，IEEE标准C57.91提供了如何加载变压器以补偿加速绝缘老化的指南。本指南并不直接适用于二次选择系统，因为它假设变压器的尺寸可以连续供应整个负载。本文介绍了一种利用绝缘老化来确定变压器尺寸的方法，并以中东某石油生产设施的实际历史温度数据为例。本文将证明，即使在远超过额定30°C的环境温度下运行，在二次选择应用中运行的变压器也不必降额。由此产生的安全效益和经济效益的低变压器额定千伏安级联整个电力系统。

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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2012 Petroleum and Chemical Industry Conference (PCIC)

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