The site for deployment has been identified in Burwood, Victoria, and will be the first commercial deployment of Power Ledger’s P2P energy trading platform in Melbourne, Victoria.
The deployment will see Greenwood Solutions install solar across strata four units using the Power Ledger platform to distribute solar energy efficiently behind the meter. The goal of the project is to supply residents with clean renewable energy while also creating increased awareness around the benefit of renewables, like solar.
Power Ledger’s software platform enables consumers to buy and sell renewable energy directly between one another, also known as as ‘peer-to-peer trading’. In order to do this, Power Ledger uses world-leading blockchain technology to create a transparent, auditable and automated record of energy generation and consumption.
Power Ledger Managing Director David Martin said the combination of on-site renewable energy generation and peer-to-peer trading will enable residents to maximize the return on their renewable energy investments.
“The current model of how people buy and sell electricity is outdated and cumbersome. Being able to experience our customers first hand frustration on the complexity of electrical billing, quickly made us realize that change was needed,” said Greenwood Solutions Director, Eddie Greco.
“The lagging effect of our energy infrastructure when compared to other sectors, especially telecommunications, has puzzled me for many years,” said Greenwood Solutions Project Engineer, David Fulton.
“After reading the Power Ledger white paper I was pleased to see I wasn’t alone and that an Australian company had a world class solution. After meeting with Power Ledger at their headquarters in Perth earlier this year, working together seemed like the next logical step.”
Power Ledger and Greenwood Solutions aim to provide clients with lower cost energy systems to off-set existing power bills and allow customers to monetize their excess energy generation by selling to third parties during times of high-output and low consumption.
