A Neural-Network-Based Data-Driven Nonlinear Model on Time- and Frequency-Domain Voltage–Current Characterization for Power-Quality Study

Author

Cheng-I Chen ; Yeong-Chin Chen

Author_Institution

Dept. of Electr. Eng., Nat. Central Univ., Jhongli, Taiwan

Volume

30

Issue

3

fYear

2015

fDate

Jun-15

Firstpage

1577

Lastpage

1584

Abstract

An accurate model of nonlinear load is important for the evaluation of power quality (PQ). Among different PQ disturbance sources, alternating current electric arc furnace (AC EAF) is one of most complicated and serious loads. To provide effective operation prediction of AC EAF, a data-driven modeling approach based on time- and frequency-domain voltage-current (v -i) characterization is proposed in this paper. With the prediction of the proposed model in the time domain, the dynamic and short-term behavior of AC EAF can be observed. And the quasistationary and long-term features of AC EAF would be extracted via the frequency-domain phase of the proposed model. From the comparison on the field measurement data, the performance of the proposed model can be verified in the applications of PQ studies.

Keywords

arc furnaces; neural nets; power engineering computing; power supply quality; time-frequency analysis; AC EAF; PQ disturbance sources; alternating current electric arc furnace; data-driven modeling approach; frequency-domain voltage-current characterization; neural-network-based data-driven nonlinear model; power-quality; time-domain voltage-current characterization; Data models; Frequency-domain analysis; Load modeling; Minimization; Time-domain analysis; Voltage measurement; Alternating current electric arc furnace (AC EAF); flickers; harmonics; power quality (PQ); time and frequency domain; voltage-current characterization;

fLanguage

English

Journal_Title

Power Delivery, IEEE Transactions on

Publisher

ieee

ISSN

0885-8977

Type

jour

DOI

10.1109/TPWRD.2015.2394359

Filename

7035072