利用自适应模糊逻辑消除输电线路除冰过程中的总谐波畸变

2015 9th Jordanian International Electrical and Electronics Engineering Conference (JIEEEC) Pub Date : 2015-10-01 DOI:10.1109/JIEEEC.2015.7470752

Husam A. Foudeh, A. Mokhtar

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引用次数: 2

摘要

本文主要研究了一种利用临界电流的热直流除冰方法。当电流在导体中流动时所产生的热被用来软化冰。选择直流除冰，因为它不需要大量的无功功率。本文将传热过程解释为一种平衡传热过程。该模型采用交流滤波和模糊逻辑控制器两种方法来降低熔炼过程中产生的谐波失真。采用MATLAB/SIMULINK程序设计了4座220KV变电站的直流除冰模型，并进行了仿真。选用35KV电站作为融冰电源;一般情况下，等效电抗为0.01H，线路长度为100 km，质量因数为20。结果表明，该设计能够有效地利用滤波器降低谐波失真。通过改变SIMULINK模型上提出的参数，可以得到不同的输出，每个输出对直流电流都有明显的影响。

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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Elimination of total harmonic distortion in transmission lines using adaptive fuzzy logic in de-icing process

This paper mostly focuses on a thermal DC deicing method using a critical current. The thermal heat that is induced when this current flows in the conductor is used to milt the ice. The DC deicing is selected since it does not need a large amount of reactive power. This paper explains the heat process as a balance heat transferring process. The proposed model uses two methods to reduce the harmonic distortion that is produced during the melting process, these methods are: AC filter and fuzzy logic controller. DC deicing model is designed and simulated using the MATLAB/SIMULINK program by four substations with 220KV. The 35KV station which is the ice melting power is chosen; the equivalent reactance is 0.01H, with a line length 100 km and quality factor 20, as a general case. The results show how the design is effective to reduce the harmonic distortion using filter. Based on changing the proposed parameters on the SIMULINK model, different outputs are resulted where each one has an obvious effect on the DC current.

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2015 9th Jordanian International Electrical and Electronics Engineering Conference (JIEEEC)

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