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research article

A Decentralized Adaptive Model-Based Real-time Control for Active Distribution Networks Using Battery Energy Storage Systems

Bahramipanah, Maryam  
•
Torregrossa, Dimitri  
•
Cherkaoui, Rachid  
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July 1, 2018
IEEE Transactions on Smart Grids

This paper proposes a real-time decentralized control algorithm in multi-area active distribution network relying only on dispersed Battery Energy Storage Systems (BESSs). In particular, we propose a zonal control strategy targeting voltage support and line congestion management. The proposed zonal control relies on an accurate dynamic model of BESSs capable to account for their DC active power limits. The communication among different areas is defined using the concept of multi-agents. The effectiveness of the proposed zonal control is assessed and compared to the equivalent centralized control problem using a test case composed by the IEEE 13 nodes distribution test feeders suitably adapted to include stochastic generation and BESSs.

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Type
research article
DOI
10.1109/TSG.2016.2631569
Author(s)
Bahramipanah, Maryam  
•
Torregrossa, Dimitri  
•
Cherkaoui, Rachid  
•
Paolone, Mario  
Date Issued

2018-07-01

Published in
IEEE Transactions on Smart Grids
Volume

9

Issue

4

Start page

3406

End page

3418

Subjects

Multi-agent systems

•

Active distribution networks

•

Active voltage control

•

Battery energy storage systems

•

Line congestion management

•

epfl-smartgrids

Peer reviewed

REVIEWED

Written at

EPFL

EPFL units
DESL  
LRE  
Available on Infoscience
April 4, 2017
Use this identifier to reference this record
https://infoscience.epfl.ch/handle/20.500.14299/136372
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