继电保护用变压器涌流建模的经验

2015 IEEE 5th International Conference on Power Engineering, Energy and Electrical Drives (POWERENG) Pub Date : 2015-05-11 DOI:10.1109/POWERENG.2015.7266310

A. Dolgicers, J. Kozadajevs

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引用次数: 1

摘要

当变压器发生故障时，有可能造成电力系统的部分损失，从而导致用户电力供应中断。这是电力变压器保护要求高的主要原因。电力变压器是一个复杂的保护对象。灵敏度等级是绕组间故障检测的关键因素。我们的想法是创建一个额外的功能，将使用浪涌电流浪涌作为变压器内绕组间故障检测的信息源。然而，用真正的兆瓦级变压器进行多次测试是绝对不可能的。这就是为什么制作正确的模型并确保模型与实际变压器相同如此重要的关键。我们选择Matlab+Symulink+Symscape+SymPowerSystem组合作为建模环境，我们尝试了多种环境，选择了性能最好的这一种。为了验证我们的模型，我们使用了小型测试变压器的测量数据。

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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Experience of transformer's inrush current modeling for the purposes of relay protection

In case of transformer failure there is a high risk of losing part of power system, which can result in disruption for consumer power supply. This is main reason for power transformer protection requirement to be so high. Power transformer is a complicated object considering its protection. Sensitivity level is a key element in inter-winding faults detection. Our idea is in creating an additional function that will use an inrush current surge as an information source for inter-winding fault detection within transformers. However it is absolutely impossible to perform multiple tests with real megawatt class transformer. That is the key why it is so important to make a correct model and to be sure that model is identical to real transformer. We choose Matlab+Symulink+Symscape+SymPowerSystem combination as modeling environment, we have tried multiple environments and selected this one as best performing. To verify our model we use measured data from small test transformer.

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来源期刊

2015 IEEE 5th International Conference on Power Engineering, Energy and Electrical Drives (POWERENG)

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