October 2022
Deploy is a five-year plan for an ambitious rollout of clean technologies that will drive down emissions and build a prosperous Australia. Deploy shows how we can create up to 195,000 jobs and repower Australia’s manufacturing regions - all while reaching an 81% emissions reduction by 2030, supported by target carbon drawdown.
Deploy identifies clean technologies that can make the most immediate impact on emissions, the number of units we will need and the rate at which we need to get them into use over the next five years. It also shows how rolling out clean technologies is an opportunity for Australia to create jobs, revitalise our manufacturing sector and allow Australia to be competitive in the clean technology export market and in energy exports.
Deploy identifies clean technologies that can make the most immediate impact on emissions, the number of units we will need and the rate at which we need to get them into use over the next five years. It also shows how rolling out clean technologies is an opportunity for Australia to create jobs, revitalise our manufacturing sector and allow Australia to be competitive in the clean technology export market and in energy exports.
With solar, Australia has shown it can lead the world in deploying renewable energy technology. We already know how to make the technologies that are needed for a zero-emissions economy - we just need to make more of them and put them to work. Find out how four technologies - available today - can do the heavy lifting.
Deploying this technology over five years will see:
jobs created
manufacturers' energy costs
green export industry stimulated
manufacturing in regions, urban centres
We need to ramp up rollout rates of the six key technologies that will do the heavy lifting. This chart shows the increase in rollout rates for these key technologies needed to achieve the five-year Deploy plan.
We need to ramp up rollout rates of the six key technologies that will do the heavy lifting. This chart shows the increase in rollout rates for these key technologies needed to achieve the five-year Deploy plan.
We need to ramp up rollout rates of the six key technologies that will do the heavy lifting. This chart shows the increase in rollout rates for these key technologies needed to achieve the five-year Deploy plan.
When we compare our total reduction figures to 2005 emission levels (used by national and state governments) we reach a 70% emissions cut by 2030. This is 81% when carbon drawdown is taken into account. The potential for emissions reduction is far greater than the Australian Government’s legislated target of a 43% reduction in emissions by 2030 compared to 2005 levels.
When we compare our total reduction figures to 2005 emission levels (used by national and state governments) we reach a 70% emissions cut by 2030. This is 81% when carbon drawdown is taken into account. The potential for emissions reduction is far greater than the Australian Government’s legislated target of a 43% reduction in emissions by 2030 compared to 2005 levels.
When we compare our total reduction figures to 2005 emission levels (used by national and state governments) we reach a 70% emissions cut by 2030. This is 81% when carbon drawdown is taken into account. The potential for emissions reduction is far greater than the Australian Government’s legislated target of a 43% reduction in emissions by 2030 compared to 2005 levels.
The increase in renewable power capacity by technology type in 2021 - and in five years time with our recommended deployment rates. Australia could reach 84% renewable energy generation within five years by deploying 64 GW of renewable capacity and 13 GW (67 GWh) of energy storage capacity – and 100% renewable energy generation by 2030.
Decarbonising aluminium/alumina manufacturing will reduce industry emission by a third.
Replacing all of the ICE vehicles is going to take time, so a high new car sales rate will be essential to driving down transport emissions.
High pump technologies can be up to 12 times more efficiency than gas heating technologies.
The majority of emission reduction with land use comes from protecting existing stock of old carbon sequestering technology.
We need to install clean technology in our homes, vehicles and industries at a rate of about two units or appliances per household. In five years this looks like:
