Residential Battery Controller For Solar PV Impact Mitigation: A Practical and Customer-friendly Approach

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Paper number

936

Working Group Number

Conference name

CIRED 2019

Conference date

3-6 June 2019

Conference location

Madrid, Spain

Peer-reviewed

Yes

Short title

Convener

Authors

Petrou, Kyriacos, The University of Melbourne, Australia
Procopiou, Andreas, The University of Melbourne, Australia
Ochoa, Luis F., The University of Melbourne, Australia
Langstaff, Tom, AusNet Services, Australia
Theunissen, John, AusNet Services, Australia

Abstract

The rapid adoption of residential solar photovoltaic (PV) systems combined with the falling prices of residential battery energy storage (BES) systems is paving the way for a future in which customers could locally supply most of their energy needs. However, as off-the-shelf (OTS) residential BES systems operate for the sole benefit of the customer, there are no guarantees that they will be able to charge during periods of peak solar generation; thus being unable to mitigate overvoltage and asset congestion issues resulting from reverse power flows. This work proposes a practical adaptive decentralized (AD) controller that, throughout the day, constantly adapts the charging and discharging power rate of the BES system so that reverse power flows are significantly reduced whilst still reducing customer grid imports. Its performance is assessed on a real Australian medium voltage feeder with realistically modelled low voltage networks and smart meter data. Results highlight that the proposed AD controller overcomes the limitations of the OTS by mitigating technical issues while still bringing similar reductions in electricity imports.

Table of content

Keywords

Publisher

AIM

Date

2019-06-03

Permanent link to this record

https://cired-repository.org/handle/20.500.12455/203
http://dx.doi.org/10.34890/400

ISSN

2032-9644

ISBN

978-2-9602415-0-1