A Multiple Harmonic Source Localization Method based on Data Analysis
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Paper number
426
Working Group Number
Conference name
CIRED 2019
Conference date
3-6 June 2019
Conference location
Madrid, Spain
Peer-reviewed
Yes
Short title
Convener
Authors
Zheng, Xian, College of Electrical Engineering and Information Technology- Sichuan University, China
Xiao, Xianyong, College of Electrical Engineering and Information Technology Sichuan University, China
Xu, Shuangting, College of Electrical Engineering and Information Technology Sichuan University, China
Wang, Ying, College of Electrical Engineering and Information Technology Sichuan University, China
Li, Yiran, College of Electrical Engineering and Information Technology Sichuan University, China
Zhang, Huaying, Shenzhen Power Supply Bureau Shenzhen 518001 China, China
Xiao, Xianyong, College of Electrical Engineering and Information Technology Sichuan University, China
Xu, Shuangting, College of Electrical Engineering and Information Technology Sichuan University, China
Wang, Ying, College of Electrical Engineering and Information Technology Sichuan University, China
Li, Yiran, College of Electrical Engineering and Information Technology Sichuan University, China
Zhang, Huaying, Shenzhen Power Supply Bureau Shenzhen 518001 China, China
Abstract
In this
paper, a multiple harmonic sources localization method based on data analysis
has been proposed. Firstly, the relationship between the node harmonic voltage
and the branch harmonic current is established according to the circuit theory.
Secondly, in power system, there are many power quality monitor data. To reduce
the calculation amount, the harmonic active power direction is utilized to the
preliminary screening of the harmonic source branches. Then, the mutual
information between the suspicious harmonic source branch current and the node
harmonic voltage is calculated, if the mutual information exceeds a threshold,
the branch is considered to be a main harmonic source branch which results in
the harmonic voltage of the concerned point exceed the prescriptive level. The
performance and engineering feasibility of the proposed method are verified by
the computer simulation and field data.
Table of content
Keywords
Publisher
AIM
Date
2019-06-03
Published in
Permanent link to this record
https://cired-repository.org/handle/20.500.12455/29
http://dx.doi.org/10.34890/66
http://dx.doi.org/10.34890/66
ISSN
2032-9644
ISBN
978-2-9602415-0-1