Modelling and optimization of simultaneous AC-DC transmission to enhance power transfer capacity of the existing transmission lines

2017 International Conference on Electrical Engineering and Computer Science (ICECOS) Pub Date : 2017-08-01 DOI:10.1109/ICECOS.2017.8167159

Uvais Mustafa, M. S. Arif, H. Rahman, M. Sidik

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引用次数: 5

Abstract

With ever-growing population, the demand of electric power is also increasing day by day. To meet this increasing demand, the power transferred should also increase. However, the existing EHV transmission lines cannot be loaded up to their thermal limits because of the considerations of their transient stability. To address this issue simultaneous power transfer scheme came into existence. With this scheme it is possible to load the transmission lines close to their thermal limits, thus increasing the power transfer capacity of the line. This is done by the transferring AC power with DC current superimposed on it. A double circuit line is converted into composite AC-DC line which will be used for simultaneous AC-DC transmission. In this work, simple mathematical model of composite line is developed and analysed to track down the conditions for maximum power transfer. Developed mathematical approach is also compared with the existing graphical method for calculating maximum power transfer. The results obtained from mathematical model are found to be in close proximity to those obtained by graphical analysis.

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交直流同步输电建模与优化，提高现有输电线路的输电能力

随着人口的不断增长，对电力的需求也日益增加。为了满足这种不断增长的需求，传输的功率也应该增加。然而，现有的超高压输电线路由于暂态稳定性的考虑，不能负荷到其热极限。为了解决这一问题，同步输电方案应运而生。采用这种方案，可以使输电线路的负荷接近其热极限，从而增加线路的输电能力。这是通过将交流电源与直流电流叠加在一起来实现的。将双回线路转换成交直流复合线路，用于交直流同时传输。本文建立并分析了复合线路的简单数学模型，以求出最大功率传输的条件。并将所提出的数学方法与现有的计算最大功率传输的图解方法进行了比较。通过数学模型得到的结果与图形分析得到的结果非常接近。

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 International Conference on Electrical Engineering and Computer Science (ICECOS)

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