Security Constrained Optimal Power Flow Considering Dynamic Line Rating

2018 10th International Conference on Information Technology and Electrical Engineering (ICITEE) Pub Date : 2018-07-01 DOI:10.1109/ICITEED.2018.8534755

S. Triwijaya, Nurdin Sugiantoro, Y. Prasetyo, Firdaus, R. S. Wibowo, O. Penangsang

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引用次数: 7

Abstract

The transmission system must be designed to anticipate contingency at all load level which is unpredictable. Contingency due to one or more transmission lines outage may cause transmission line overload. As the result, re-dispatch is required, the operational cost becomes more expensive. To overcome this problem, knowing the actual current capacity is very important to use line capacity maximally. Dynamic line rating is an approach to know the ampacity rating of the bare overhead transmission line base on meteorological conditions. The integration DLR with security constraint optimal power flow (SCOPF) potentially enhances security and minimize the generation cost. The complexities of integration DLR and SCOPF are calculating ampacity using steady state heat balance equation (HBE), adding steady state HBE on SCOPF and simulating in the various time interval with multi-load levels. Direct current SCOPF is used to simplify the completion of this proposed method. This proposed method has been tested on modified system IEEE 9 bus and solved using MATLAB base quadratic programming.

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考虑动态线路额定值的安全约束最优潮流

输电系统的设计必须能预见所有负荷水平上不可预测的意外情况。由于一条或多条输电线路中断而引起的突发事件可能导致输电线路过载。因此，需要重新派遣，业务成本变得更加昂贵。为了克服这个问题，了解实际的电流容量对于最大限度地利用线路容量是非常重要的。动态线路额定值是一种根据气象条件了解裸架空输电线路容量额定值的方法。将DLR与安全约束最优潮流(SCOPF)相结合，可以提高电力系统的安全性，降低发电成本。DLR和SCOPF集成的复杂性在于利用稳态热平衡方程(HBE)计算容量，在SCOPF上加入稳态热平衡方程，并在不同的时间间隔内进行多负荷水平的模拟。使用直流SCOPF简化了该方法的完成。该方法已在改进系统ieee9总线上进行了测试，并利用MATLAB基二次规划进行了求解。

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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2018 10th International Conference on Information Technology and Electrical Engineering (ICITEE)

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