Title :
A smart power flow adjustment method with phase shifting transformers for long term generation outages
Author :
Ogahara, Ryuichi ; Kawaura, Yuki ; Ando, Sho ; Iwamoto, Shinichi ; Namba, Masayuki ; Kamikawa, Naohiro
Author_Institution :
Waseda Univ., Tokyo, Japan
Abstract :
This paper assumes significant amount of protracted local loss of the generation capability (approximately 20% of the total capacity), and examines the resulting load changes in the loop system, which likely result in creating considerable power flow differences in such a system. We then propose the use of phase shifting transformers (PSTs) to alleviate load differences among transmission lines, allowing more effective use of the loop system. Specifically, we propose the concept of active power flow sensitivity (APFS) and active power flow sensitivity 2 (APFS2). By installing and operating PSTs at optimal locations with proper phase angles, which are determined by a branch and bound method, we mitigate load differences between heavily and lightly loaded transmission lines. The validity of the proposed method is confirmed by using a modified IEEJ EAST 30 model.
Keywords :
load flow; power generation reliability; power transformers; power transmission lines; tree searching; APFS; APFS2; PST; active power flow sensitivity; active power flow sensitivity 2; branch and bound method; long term generation outage; loop system; modified IEEJ EAST 30 model; phase shifting transformer; smart power flow adjustment method; transmission line load difference mitigation; Generators; Linear programming; Load flow; Load modeling; Power transmission lines; Reactive power; Sensitivity; Branch and bound method; Line flow sensitivity; Phase shifting transformer; Power system; Transmission Planning;
Conference_Titel :
Power and Energy Engineering Conference (APPEEC), 2014 IEEE PES Asia-Pacific
DOI :
10.1109/APPEEC.2014.7066002
