SEPTEMBER - OCTOBER 202519APACAPACgroups and understanding their current and future energy uses including looking at things like battery and solar PV uptake. We then took that information and spread it across our customer base to create different energy forecasting scenarios.Together when you combine the forecasts, customer demand profiles across the different scenarios we get a unique view and clarity on the most efficient ways to service energy needs. It’s exciting in that we get to look at it from clean sheet perspective – what would we do in an ideal state across those multiple scenarios?The results have been fantastic and extremely insightful laying the foundation for a new way of thinking in how we better plan for the future.A key insight we’ve seen so far is the benefits of urban undergrounding power for our inner metro customer profiles while maintaining poles and wires for customers in the outer metro area. We also now know that a significant proportion of our distribution overhead network, more than fifty per cent, could be transformed to an autonomous grid using stand-alone power systems (SPS) and microgrids.With this new understanding we’re now progressing from the network of today to the grid of tomorrow. This involves transition pathways and looking at our maintenance and renewal strategies and other inputs to be able to understand the most efficient economic pathway to transitioning the network. And this is where the GTEng comes in to its own. Already we’re deploying SPS in regional locations where there are network and customer benefits. GTEng enables us to identify distribution network feeders with different spurs that could evolve into an autonomous grid. It looks at the age, risk, customer use of each spur and creates a net present cost view of using a traditional network solution versus an innovative solution such as an SPS. SPS provides our regional customers with a cost-effective, safe and reliable alternative to pole-and-wire power distribution, particularly in regional and remote locations where supply costs are high and power reliability and quality are impacted by distance, access issues, terrain and events like storms and bushfires.Since rolling out our first pilot SPS in 2016, we now have more than 150 across the grid and we’re looking to deploy 1,000 in the next four years and 4,000 units in the coming decade. Modelling has shown that if we roll out 6,000 SPS, we’ll be able to decommission more than 23,000kms of overhead assets.While SPS is a significant part of the transformation process, we’re aiming even higher, and looking to transform around fifty per cent of our distribution asset base.The GTEng also provides greater insights into the use and prevalence of distributed energy resources (DER) and the need for DER orchestration. The impact of solar PV penetration on parts of the network highlights the need for coordination to mitigate overload and the need for augmentation. Other scenarios we’re looking at include how EV charging, say at six o’clock in the evening, could impact the low voltage network and what augmentation would be required. This has helped inform our underground strategy in the metropolitan area.About 60 per cent of the Perth metropolitan area now has underground power with around 90,000 homes and businesses converted from overhead to underground power since undergrounding began in 1996. Western Power has identified a further 300 projects across the metro area that will benefit from underground power in the next two decades.As a stand-alone grid, we collaborate more broadly with other energy utilities and agencies in WA and due to GTEng’s scalability we’ve been able to share forecasting scenarios for generation planning.This has provided us with a unique environment where we’ve got consistent information being used at the distribution, transmission and generation level, all of which is being driven by customer needs. We’ve basically created an ecosystem of modelling. We’re now looking at how we can expand our proof of concept for distribution into a transmission modelling tool, and then ultimately, more broadly integrate generation. This builds on the work we’ve done to successfully trial innovative solutions like SPS, battery storage and the Kalbarri microgrid. Along with improving DER integration, the coordination of advanced metering infrastructure (AMI) and modernised connection standards for DER we can successfully plan for greater amounts of grid-connected storage to help manage a mix of energy generation. The GTEng’s ecosystem of modelling helps inform whole of system planning for WA by providing a consistent suite of information that’s been able to give us a quality outcome across the board.It’s enabled us to trial and successfully progress transformational investment in existing assets and new technology on our path towards a modular grid ensuring better power outcomes for Western Australians.
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