The future of energy is local, modular, and thrill-seeking – meet the microgrid, the little grid with big dreams of transforming how your appliances are powered and how your community copes with extreme weather. Contact online >>
The future of energy is local, modular, and thrill-seeking – meet the microgrid, the little grid with big dreams of transforming how your appliances are powered and how your community copes with extreme weather.
Out in rural Victoria, a motley team of solar panels, inverters and batteries have teamed up to power a dozen homes. Led by lab director Professor Glenmo – part mad scientist, part renewable rabble-rouser – this scrappy microgrid is writing its own rulebook when it comes to keeping the lights on. Peak hour surges, multi-day storms, grid failures – bring it on. By pushing the operational boundaries, this tiny grid is lighting the way for all of us.
Glenmo’s relatively small 30 kW islanded grid-forming system currently controls 140 kW of connected solar panels scattered throughout the area on the microgrid. That’s a lot of solar to control when the grid goes down, and nothing’s left to soak up the excess solar power. In a recent video, Glenmo (AKA Glen Morris from Smart Energy Labs) explains how his microgrid system tames all those solar panels using Selectronic inverters and a clever trick from the Australian standard for grid-connected inverters to help out.
Microgrid: A local energy system that creates, stores, and shares electricity independently. It often uses renewable sources like solar and wind. Microgrids can run on their own and/or connect to the main power grid.
Grid-Forming: A power source, like a renewable energy system, that can set and maintain stable voltage and frequency levels. It synchronizes multiple energy sources, enabling a reliable power supply.
In the video below, check out Professor Glenmo explaining how his microgrid works, and then read on for more insights. If this piques your interest, Glen will be running an online ''Microgrid Design Course'' in January 2024. Details are provided at the end of the article.
Let’s start with a breakdown of his grid-forming system components, which include 30 kW of battery inverters and an 80 kWh battery stack. Additionally, the microgrid connects to 140 kW of distributed solar generation.
Selectronic Powerchain is Selectronic’s software-based solution for direct management of solar. It enables linking multiple SP PRO bi-directional battery inverters, whether single or multi-phase, on or off-grid.
“The lesson with microgrids is you need to size the grid-forming system to cope with the maximum demand when there are no other sources available. Or, you have a backup generator system, which we do. We’ve got a 22kVA generator here as a backup solution.”
“So, you’ve got to size your sources to consider your grid-forming system first, how big it’s going to be, and whether it can absorb and control the amount of connected generation.”
The key information here is “absorb and control the amount of connected generation.” That’s a Herculean task, considering the 30 kW grid-forming system has somehow to absorb a potential 140 kW of connected generation!
Australian standards get more of their fair share of rubbishing from the electrical industry, so it’s refreshing to highlight an instance where a ruling is put in for good reason. Without it, this microgrid system may even be unworkable.
“And what do you know, out of the box, without any configuration, they (inverters) have to do what’s called frequency power reduction. That means as the frequency climbs, the output power reduces. So these clever inverters here, from Selectronic, they actually lift the frequency when they need less power from other sources, such as conventional grid-tie inverters or hybrid systems that are also connected on one or more phases on the microgrid.”
That sounds like a ‘hold your breath, cross your fingers’ kind of moment, and hope that all connected inverters ramp down as expected if the frequency climbs above set thresholds.
Fortunately, over half of this microgrid’s connected solar generation doesn’t have to rely on frequency power reduction as outlined in the AS/NZS 4777.2 standard. There are also four 20 kW SelectSun 3-phase grid-tie inverters, which are controlled via the battery inverters using the aforementioned Selectronic Powerchain.
So, with Powerchain in control and the rest of the inverters limited by frequency power reduction, as stated in the standard, what could possibly go wrong? Lots, it seems! Selectronic have a limit of two to one for managed AC coupling. So, for every kilowatt of SP Pro you have, you can have 2 kilowatts of PV inverters.
By that requirement, Glen’s SelectSun managed PV is over by 20 kW, and he has another 60 kW of PV relying on frequency power reduction. No problem. It’s a test facility, right? Glen likes to push the boundaries to find answers. Over to you, Professor:
“Four 20 kW Select Suns (PV inverters), which are Modbus-controlled by these Selectronic (battery) inverters because they’re basically a Selectronic solution for direct management of solar. So the remaining solar, which is scattered across all the homes and labs here at the Smart Energy Lab, relies on that frequency shift power control. And sometimes it doesn’t ramp down fast enough. And what do you know, boom, we exceed the battery voltage!”
“There’s something special about these batteries. They look after themselves. If they see a high voltage spike on any of the cells, they’ll shut down. Now, that’s a bit of an oops moment. But on a microgrid, it doesn’t mean the homes lose power. It just means that the grid’s gone. And these homes all have hybrid systems on them.”
So, all the homes on this microgrid have a battery backup and still have power when the grid goes down. I expect everyone affected would know that Glen’s probably out in his shed playing with electricity again when this happens, and it’s just another day at the office.
About Microgrid control victoria
As the photovoltaic (PV) industry continues to evolve, advancements in Microgrid control victoria have become critical to optimizing the utilization of renewable energy sources. From innovative battery technologies to intelligent energy management systems, these solutions are transforming the way we store and distribute solar-generated electricity.
When you're looking for the latest and most efficient Microgrid control victoria for your PV project, our website offers a comprehensive selection of cutting-edge products designed to meet your specific requirements. Whether you're a renewable energy developer, utility company, or commercial enterprise looking to reduce your carbon footprint, we have the solutions to help you harness the full potential of solar energy.
By interacting with our online customer service, you'll gain a deep understanding of the various Microgrid control victoria featured in our extensive catalog, such as high-efficiency storage batteries and intelligent energy management systems, and how they work together to provide a stable and reliable power supply for your PV projects.
