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Consumer-Led Transition: Australia's World-Leading Distributed Energy Resource Integration Efforts

Naomi Stringer, Anna Bruce, Iain MacGill, Navid Haghdadi, Peter Kilby, Jacqui Mills, Taru Veijalainen, Matt Armitage, Nigel Wilmot

2020IEEE Power and Energy Magazine19 citationsDOI

Abstract

It's a sunny spring DAY in South Australia. A light breeze is cooling the coastal state capital of Adelaide as approximately 260,000 distributed solar photovoltaic (D-PV) systems on residential and business rooftops generate electricity, setting a new state record for the lowest minimum electrical demand for the third time this season. All looks peaceful throughout the suburbs. D-PVs form an irregular yet persistent patchwork across one-third of the houses in the state. Most consumers are going about their day without a glance at the D-PV panels on these roofs. However, the mild temperature and bountiful sunshine lead the D-PV generation to climb, causing the voltage to creep higher and power to flow in reverse across large swathes of the distribution network. Some D-PVs are tripping off, unbeknownst to their owners and the local network operator.

Topics & Concepts

Photovoltaic systemElectricityClimbState (computer science)Renewable energyMeteorologyEnvironmental scienceEngineeringGeographyBusinessElectrical engineeringComputer scienceAerospace engineeringAlgorithmSmart Grid Energy ManagementMicrogrid Control and OptimizationEducation Systems and Policy
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