Title :
Towards a Transmission Line Limit Preserving Algorithm for Large-Scale Power System Equivalents
Author :
Wonhyeok Jang ; Mohapatra, Saurav ; Overbye, Thomas J.
Abstract :
Power system equivalents have long been used for reducing the size of power systems networks. While there are a number of equivalencing methods, little attention has been paid on how to retain thermal line limits from the original system. This paper presents an approach to develop an equivalent network for a large scale power system that preserves the thermal line limits from the equivalenced lines. The proposed method is able to assign limits to equivalent lines with inexpensive computation and is operating point independent even with a loaded system. The algorithm is applied to create a backbone type equivalent system of the Eastern Interconnection in North America.
Keywords :
large-scale systems; power system interconnection; transmission networks; North America; backbone type equivalent system; equivalencing methods; large-scale power system equivalents; loaded system; power systems networks; thermal line limits; transmission line limit preserving algorithm; Approximation methods; Generators; Impedance; Load flow; Planning; Substations; Power system equivalents; equivalent line limits;
Conference_Titel :
System Sciences (HICSS), 2015 48th Hawaii International Conference on
Conference_Location :
Kauai, HI
DOI :
10.1109/HICSS.2015.332
