Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid

This paper presents a coordinated secondary control (CSC) strategy for distributed power management for an autonomous hybrid three-port AC/DC/DS microgrid. The proposed CSC is on top of a generalized primary control (GPC), which consists of local power sharing (LPS) control within an individual AC o...

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Main Authors:	Jin, Chi, Wang, Junjun, Wang, Peng
Other Authors:	School of Electrical and Electronic Engineering
Format:	Article
Language:	English
Published:	2019
Subjects:	Decentralized Control Engineering::Electrical and electronic engineering Coordinated Secondary Control
Online Access:	https://hdl.handle.net/10356/83408 http://hdl.handle.net/10220/49122
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Institution:	Nanyang Technological University
Language:	English

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spelling	sg-ntu-dr.10356-834082021-01-07T03:27:55Z Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid Jin, Chi Wang, Junjun Wang, Peng School of Electrical and Electronic Engineering Energy Research Institute @ NTU (ERI@N) Decentralized Control Engineering::Electrical and electronic engineering Coordinated Secondary Control This paper presents a coordinated secondary control (CSC) strategy for distributed power management for an autonomous hybrid three-port AC/DC/DS microgrid. The proposed CSC is on top of a generalized primary control (GPC), which consists of local power sharing (LPS) control within an individual AC or DC subgrid, global power sharing (GPS) control throughout the AC/DC subgrids, and storage power sharing (SPS) control in a distributed storage (DS) network. The CSC along with the GPC uses the local frequency/voltage deviations and offers decentralized power management with enhanced overall reliability. To eliminate the inherent frequency/voltage deviations in GPC and restore to their nominal values, a secondary control is normally applied to all distributed generators (DGs), which would degrade the performance of decentralized power management. To overcome this concern, a CSC strategy is proposed to concurrently restore frequency/voltage and re-establish a distributed power management by means of limited information exchange through the low-bandwidth communication links. The proposed control scheme has been verified by both simulations and controller hardware-in-the-loop (CHIL) experiments in an OPAL-RT digital simulator system. NRF (Natl Research Foundation, S’pore) Published version 2019-07-04T01:58:55Z 2019-12-06T15:21:51Z 2019-07-04T01:58:55Z 2019-12-06T15:21:51Z 2018 Journal Article Jin, C., Wang, J., & Wang, P. (2018). Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid. CSEE Journal of Power and Energy Systems, 4(1), 1-10. doi:10.17775/CSEEJPES.2016.01400 2096-0042 https://hdl.handle.net/10356/83408 http://hdl.handle.net/10220/49122 10.17775/CSEEJPES.2016.01400 en CSEE Journal of Power and Energy Systems © 2016 CSEE (published by IEEE). This is an open-access article distributed under the terms of the Creative Commons Attribution License. 10 p. application/pdf
institution	Nanyang Technological University
building	NTU Library
continent	Asia
country	Singapore Singapore
content_provider	NTU Library
collection	DR-NTU
language	English
topic	Decentralized Control Engineering::Electrical and electronic engineering Coordinated Secondary Control
spellingShingle	Decentralized Control Engineering::Electrical and electronic engineering Coordinated Secondary Control Jin, Chi Wang, Junjun Wang, Peng Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid
description	This paper presents a coordinated secondary control (CSC) strategy for distributed power management for an autonomous hybrid three-port AC/DC/DS microgrid. The proposed CSC is on top of a generalized primary control (GPC), which consists of local power sharing (LPS) control within an individual AC or DC subgrid, global power sharing (GPS) control throughout the AC/DC subgrids, and storage power sharing (SPS) control in a distributed storage (DS) network. The CSC along with the GPC uses the local frequency/voltage deviations and offers decentralized power management with enhanced overall reliability. To eliminate the inherent frequency/voltage deviations in GPC and restore to their nominal values, a secondary control is normally applied to all distributed generators (DGs), which would degrade the performance of decentralized power management. To overcome this concern, a CSC strategy is proposed to concurrently restore frequency/voltage and re-establish a distributed power management by means of limited information exchange through the low-bandwidth communication links. The proposed control scheme has been verified by both simulations and controller hardware-in-the-loop (CHIL) experiments in an OPAL-RT digital simulator system.
author2	School of Electrical and Electronic Engineering
author_facet	School of Electrical and Electronic Engineering Jin, Chi Wang, Junjun Wang, Peng
format	Article
author	Jin, Chi Wang, Junjun Wang, Peng
author_sort	Jin, Chi
title	Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid
title_short	Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid
title_full	Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid
title_fullStr	Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid
title_full_unstemmed	Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid
title_sort	coordinated secondary control for autonomous hybrid three-port ac/dc/ds microgrid
publishDate	2019
url	https://hdl.handle.net/10356/83408 http://hdl.handle.net/10220/49122
_version_	1688665689338937344

Coordinated secondary control for autonomous hybrid three-port AC/DC/DS microgrid

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