DocumentCode
11555
Title
Real-Time Optimal Voltage Regulation for Distribution Networks Incorporating High Penetration of PEVs
Author
Azzouz, Maher Abdelkhalek ; Shaaban, Mostafa F. ; El-Saadany, Ehab F.
Author_Institution
ECE, Univ. of Waterloo, Kitchener, ON, Canada
Volume
30
Issue
6
fYear
2015
fDate
Nov. 2015
Firstpage
3234
Lastpage
3245
Abstract
This paper proposes a vehicle-to-grid reactive power support (V2GQ) strategy for optimal coordinated voltage regulation in distribution networks with high distributed generation (DG) penetration. The proposed algorithm employs plug-in electric vehicles (PEVs), DG, and on-load tap changer (OLTC) to satisfy PEV charging demand and grid voltage requirements with relaxed tap operation, and minimum DG active power curtailment. The voltage regulation problem is formulated as a nonlinear programming and consists of three consecutive stages, in which successive stages apply the outputs of their preceding stages as constraints. The first stage aims to maximize the energy delivered to PEVs to assure PEV owner satisfactions. The second stage maximizes the DG extracted active power. Third stage minimizes the voltage deviation from its nominal value utilizing the available PEV and DG reactive powers. The main implicit objective of the third stage problem is relaxing the OLTC tap operation. In addition, the conventional OLTC control is replaced by a proposed centralized controller that utilizes the output of the third stage to set its tap position. Real-time simulations are developed to demonstrate the effectiveness of the proposed optimal coordinated algorithm on a typical distribution network using OPAL-RT real-time simulator (RTS) in a hardware-in-the-loop (HIL) application.
Keywords
distributed power generation; electric vehicles; nonlinear programming; on load tap changers; power distribution control; power grids; reactive power control; voltage control; HIL application; OLTC; OPAL-RT RTS; OPAL-RT real-time simulator; PEV charging demand; PEV owner satisfactions; V2GQ strategy; centralized controller; distributed generation penetration; distribution networks; grid voltage requirements; hardware-in-the-loop application; minimum DG active power curtailment; nonlinear programming; on-load tap changer; optimal coordinated algorithm; optimal coordinated voltage regulation; plug-in electric vehicles; relaxed tap operation; vehicle-to-grid reactive power support strategy; voltage deviation; Distributed power generation; Electric vehicles; Reactive power; Real-time systems; Voltage control; Voltage measurement; Distributed generation; on-load tap changers; plug-in electric vehicles; voltage regulation;
fLanguage
English
Journal_Title
Power Systems, IEEE Transactions on
Publisher
ieee
ISSN
0885-8950
Type
jour
DOI
10.1109/TPWRS.2014.2385834
Filename
7005526
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