Title :
Impact of DFIG wind turbines on short circuit levels in distribution networks using ETAP
Author :
Afifi, S.N. ; Wang, H. ; Taylor, G.A. ; Irving, M.R.
Author_Institution :
Sch. of Eng. & Design, Brunel Univ., Uxbridge, UK
Abstract :
The penetration of distributed generation in distribution networks has altered the traditional concept of a downstream power flow and the short circuit capacity. In some occasions, distributed generation could be connected without any implications. There may be disadvantages of connecting distributed generation such as increasing the voltage profile and exceeding the network short circuit level, and in turn, this may limit the connection of the distributed generation to the network. This paper will examine the impact of Doubly Fed Induction Generator wind turbines on short circuit level of IEEE 13-bus distribution test system using ETAP software. This will include balanced and unbalanced faults.
Keywords :
IEEE standards; asynchronous generators; distributed power generation; distribution networks; load flow; power generation faults; short-circuit currents; wind turbines; DFIG wind turbines; ETAP software; IEEE 13-bus distribution test system; balanced faults; distributed generation; distributed generation penetration; distribution networks; doubly fed induction generator wind turbines; downstream power flow; network short circuit level; short circuit capacity; unbalanced faults; voltage profile; Circuit faults; Distributed power generation; Induction generators; Short-circuit currents; Wind energy; Wind turbines; Distributed Generation; doubly fed induction generators; renewable energy; short circuit current;
Conference_Titel :
Power Engineering Conference (UPEC), 2013 48th International Universities'
Conference_Location :
Dublin
DOI :
10.1109/UPEC.2013.6714976
