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15 August 2025
Australian researchers have found that households with solar panels could boost their returns by selling surplus power directly to their neighbours, known as peer-to-peer (P2P) energy sharing, helping to stabilise the electricity grid and negotiating a better price than retailers currently offer.
With solar panels installed in almost 40% of Australian houses (4.1 million homes), the electricity grid is now overloaded with excess energy, driving down the feed-in tariff for most households, with some now questioning the economic value of solar.
In a bid to make it more attractive and encourage the uptake of renewable energy, the Federal Government has recently implemented a $2.3 billion scheme to subsidise the installation of home batteries, but a new study shows that adding battery storage doesn’t always deliver extra benefits.
A collaboration between the University of South Australia (UniSA) and Deakin University has compared four different energy models that could help households and energy policymakers design more efficient, community-based solar systems.
The research, published in Renewable Energy, explores the technical and economic benefits of integrating batteries and P2P energy sharing into grid-connected residential photovoltaic (PV) systems.
Using real-world data from a 10kW solar-powered home in Geelong, the study simulated energy generation, consumption and sharing across four models over 12 months, including interactions with three neighbouring consumers.
The models included:
Lead author UniSA researcher Dr Kevin Wang says the findings show that P2P energy sharing delivers significant benefits compared to traditional grid export arrangements, particularly when feed-in tariffs are low.
“Under current conditions in Victoria, the feed-in tariff is less than 5 cents per kilowatt hour, while the retail price is around 28 cents. Selling surplus PV energy directly to neighbours at a mutually agreed price in between can be more profitable for solar householders and still cheaper for buyers,” Dr Wang says.
Local P2P energy sharing also improves grid stability, balancing supply and demand, because less surplus energy is exported to the grid, which is primarily built to distribute power rather than receive it.
The results showed:
“Our modelling revealed that under current conditions, P2P energy sharing coupled with a 10kWh battery could deliver the highest return – $4929 – for solar owners over 20 years,” Dr Wang says.
“In contrast, all peer-to-grid scenarios resulted in negative returns over the same period due to low feed-in tariffs and high battery costs.
“Battery size proved critical. Systems with oversized batteries saw returns diminish due to higher capital and maintenance costs and reduced surplus energy.”
Co-author Professor Chunlu Liu from Deakin University says the study highlights a trade-off between battery use and community sharing.
“When batteries are used, they benefit the solar owner by reducing their grid reliance, but this can limit the amount of energy shared with neighbours because they are fully charged before any surplus energy is shared. The challenge is to find a balance that works for everyone,” Prof Liu says.
The researchers suggest that further gains in solar self-consumption could be made by integrating other technologies, such as heat pumps or thermal storage, to absorb excess PV energy that would otherwise be exported.
With Australia’s solar uptake the highest in the world, the authors say that models like P2P energy sharing could help relieve pressure on the grid while improving the economics of home solar.
“Our analysis shows that if P2P energy sharing prices are set between the feed-in tariff and retail rates, both sellers and buyers can come out ahead,” according to co-author Professor Mark Luther. “But market rules and technical systems need to support these transactions at scale.”
The team hopes their work will inform policy and investment decisions as the energy sector transitions to decentralised, low-carbon systems.
‘Technical and economic analyses of grid-connected residential PV considering batteries and peer-to-peer energy sharing’ is published is authored by Kevin Wang, Mark Luther, Peter Horan, Jane Matthews and Chunlu Liu. DOI: 10.1016/j.renene.2025.123494
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Contacts for interview:
Researcher contact: Dr Kevin Wang E: KevinZheng.Wang@unisa.edu.au
Media contact: Candy Gibson M: +61 434 605 142 E: candy.gibson@unisa.edu.au
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