Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid

The wide-ranging use of renewable energy sources (RES) in the modern era leads to the association of distributed non-conventional energy resources in contrary to large-scale and localized conventional non-renewable sources. The prevalent use of distributed sources produces various Power-Quality issu...

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Published in:Energy Reports
Main Author: Acharya D.P.; Hannon N.; Choudhury S.; Nayak N.; Satpathy A.
Format: Article
Language:English
Published: Elsevier Ltd 2023
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85149844814&doi=10.1016%2fj.egyr.2023.03.032&partnerID=40&md5=a031de19bc2339264226071fd12a1ccf
id 2-s2.0-85149844814
spelling 2-s2.0-85149844814
Acharya D.P.; Hannon N.; Choudhury S.; Nayak N.; Satpathy A.
Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
2023
Energy Reports
9

10.1016/j.egyr.2023.03.032
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85149844814&doi=10.1016%2fj.egyr.2023.03.032&partnerID=40&md5=a031de19bc2339264226071fd12a1ccf
The wide-ranging use of renewable energy sources (RES) in the modern era leads to the association of distributed non-conventional energy resources in contrary to large-scale and localized conventional non-renewable sources. The prevalent use of distributed sources produces various Power-Quality issues. A thorough review of the literature provides numerous approaches for Power Quality (PQ) improvements; however, most techniques can improve only a few PQ problems. The new technical challenges like power loss, stability, reliability and power quality (PQ) issues are observed in present micro grid scenario. In this regard, this research work is an attempt to address PQ improvement in a three-phase realistic complex micro grid (integration of three simple micro grids to the point of common coupling. Improvement of various PQ factors for example sag/swell, unbalancing, power factor (Pf), total harmonic distortion (THD), communication delay and addition of impedance has been addressed in this research work. In this research article, a Kernel based Deep Auto Regressive Exogenous Output Neural Network (KDNARX) controller has been proposed and applied to improve power quality issues in a complex or realistic three phase complex micro grid (RTPCMG) in grid connected mode of operation. The RTPCMG is a combination of three simple grids with individual ratings of (4 kW, 4 kW and 6 kW). Photo voltaic cell, wind generator (WG), fuel cell (FC) and battery energy storage system (BESS) are the constituent distributed generators (DGs) for the proposed micro grid. The PQ improvement by application of proposed KDNARX controller to the DG inverter switching, has been overly tested in 12 different power quality issues under various operating conditions. The Kernel parameters are optimized by a new optimization technique called Cosine Chaotic PSO (CCPSO) algorithm. The results proved the strength of the new control technique ensuring PQ improvement and stability study of a three phase AC micro grid. Also, the potentiality of the new control scheme is compared with ANN and NARX and its superiority has been proved. Further, some case studies are validated through hardware in loop (HIL) environment thus justifying its real time implementation. © 2023 The Author(s)
Elsevier Ltd
23524847
English
Article
All Open Access; Gold Open Access
author Acharya D.P.; Hannon N.; Choudhury S.; Nayak N.; Satpathy A.
spellingShingle Acharya D.P.; Hannon N.; Choudhury S.; Nayak N.; Satpathy A.
Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
author_facet Acharya D.P.; Hannon N.; Choudhury S.; Nayak N.; Satpathy A.
author_sort Acharya D.P.; Hannon N.; Choudhury S.; Nayak N.; Satpathy A.
title Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
title_short Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
title_full Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
title_fullStr Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
title_full_unstemmed Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
title_sort Design and hardware in loop testing of an intelligent controller for power quality improvement in a complex micro grid
publishDate 2023
container_title Energy Reports
container_volume 9
container_issue
doi_str_mv 10.1016/j.egyr.2023.03.032
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85149844814&doi=10.1016%2fj.egyr.2023.03.032&partnerID=40&md5=a031de19bc2339264226071fd12a1ccf
description The wide-ranging use of renewable energy sources (RES) in the modern era leads to the association of distributed non-conventional energy resources in contrary to large-scale and localized conventional non-renewable sources. The prevalent use of distributed sources produces various Power-Quality issues. A thorough review of the literature provides numerous approaches for Power Quality (PQ) improvements; however, most techniques can improve only a few PQ problems. The new technical challenges like power loss, stability, reliability and power quality (PQ) issues are observed in present micro grid scenario. In this regard, this research work is an attempt to address PQ improvement in a three-phase realistic complex micro grid (integration of three simple micro grids to the point of common coupling. Improvement of various PQ factors for example sag/swell, unbalancing, power factor (Pf), total harmonic distortion (THD), communication delay and addition of impedance has been addressed in this research work. In this research article, a Kernel based Deep Auto Regressive Exogenous Output Neural Network (KDNARX) controller has been proposed and applied to improve power quality issues in a complex or realistic three phase complex micro grid (RTPCMG) in grid connected mode of operation. The RTPCMG is a combination of three simple grids with individual ratings of (4 kW, 4 kW and 6 kW). Photo voltaic cell, wind generator (WG), fuel cell (FC) and battery energy storage system (BESS) are the constituent distributed generators (DGs) for the proposed micro grid. The PQ improvement by application of proposed KDNARX controller to the DG inverter switching, has been overly tested in 12 different power quality issues under various operating conditions. The Kernel parameters are optimized by a new optimization technique called Cosine Chaotic PSO (CCPSO) algorithm. The results proved the strength of the new control technique ensuring PQ improvement and stability study of a three phase AC micro grid. Also, the potentiality of the new control scheme is compared with ANN and NARX and its superiority has been proved. Further, some case studies are validated through hardware in loop (HIL) environment thus justifying its real time implementation. © 2023 The Author(s)
publisher Elsevier Ltd
issn 23524847
language English
format Article
accesstype All Open Access; Gold Open Access
record_format scopus
collection Scopus
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