A Microgrid brings multiple renewable energy sources together. Microgrids have the potential to harness the likes of photovoltaic and wind energy, which can then be harboured in abattery energy storage system(BESS) for future use. The potential of Microgrids UK is huge, and we're so excited about th Contact online >>
A Microgrid brings multiple renewable energy sources together. Microgrids have the potential to harness the likes of photovoltaic and wind energy, which can then be harboured in abattery energy storage system(BESS) for future use. The potential of Microgrids UK is huge, and we''re so excited about the positive impact that they can have on the UK''s push towards a greener future and Net Zero.
One of the fundamentals of Microgrids is that they can become a localised source of energy for a commercial, industrial, or residential application, and they can disconnect from the main grid to provide a renewable source of energy. The fact that Microgrids can detach from the grid and provide renewable energy means that they are reliable and resilient and is the reason that they''re so highly sought after. Learn more about the role ofMicrogrids in battery energy storage here.
Microgrids can draw energy from multiple sources, which is one of their most impressive features. Typically, Microgrids generate energy from solar panels, wind turbines, generators, or a combination of these methods. The most efficient Microgrids then supplement their energy generation with energy storage, to provide an off-grid solution to users.
In most instances, Microgrids are deployed as small-scale solutions, offering multiple forms of renewable energy to a specific location, such as a home, office, transport hub, or industrial warehouse, for example.
The key thing to understand about Microgrids is that they generate energy locally and are not at risk of power outages from centralised grids. Given our climate crisis and the uncertain future of fossil fuels, this is one of the biggest advantages of utilising a Microgrid.
It''s estimated that Microgrids are up to 15% more efficient than traditional energy distribution networks, as they don''t suffer any transmission losses.
At the centre of any Microgrid is intelligent energy management software, which manages and controls the energy that is created, stored, and distributed. The software is also capable of storing power when prices are low and turning to stored energy during peak usage periods. In other words, the management software gets the very best out of the Microgrid technology.
Microgrids in the UK have drawn a lot of national attention in recent times, due primarily to the incredible advantages that these systems offer to users. Specifically, Microgrids have the following benefits when deployed efficiently:
Microgrids provide a localised source of renewable energy and draw energy from multiple sources. This provides grid independence as there''s zero requirement for the users of Microgrids to connect to a centralised grid to use power.
As Microgrids don''t rely on centralised grids, they are much more energy efficient, somewhere in the region of 15%. What''s more, the intelligent management software enables users to increase the energy efficiency of Microgrids even further, ensuring that very little energy is wasted.
Though some people are put off by the initial expense of installing a Microgrid, they undoubtedly pay for themselves over time. As the UK is experiencing a cost-of-living crisis, the fact that you can draw renewable energy from a Microgrid offers huge cost savings long into the future.
Another benefit of Microgrids is that they reduce dependence on fossil fuels. In theUK''s Net Zero campaign, eliminating fossil fuels in the near future is the overarching goal. The energy created by Microgrids is clean and green, providing you with an environmentally friendly solution to the National Grid.
Some Microgrids provide income generation opportunities, thanks to grid service contracts. Essentially, this enables you to sell excess energy that a Microgrid creates to the National Grid, offering income that can increase the cost-effectiveness of the system.
Faced with an uncertain future, Microgrids provide users with energy security and a much greater sense of independence. What''s more, Microgrids with multiple sources of energy are extremely resilient and offer a much better alternative to relying on the centralised grid.
There''s no doubt that the advantages outweigh the disadvantages of Microgrids in the UK. However, the biggest downside to this technology is the cost of installation. The good news is that the cost of installation is likely to decrease in the near future, and AceOn is working on technology (specifically, battery energy storage solutions), which will accelerate the utilisation of Microgrids throughout the UK.
Microgrids require ongoing maintenance to ensure their connectivity and to guarantee their optimal functioning. This is the case with practically any application, and it shouldn''t come as a surprise. However, it''s important to recognise from the outset that such maintenance adds to the cost of the system and is something that you will need to budget for. This is particularly important to consider if your Microgrid draws energy from multiple sources.
The beauty of Microgrids is that they can be used in a range of settings to provide reliable and consistent energy throughout the year. Some examples of how Microgrids are used in the UK include:
It''s impossible to explore the possibilities of Microgrids without highlighting the role that battery energy storage solutions (BESS) will play. Look at it like this – if you generate surplus energy from multiple renewable sources, you need to store that energy for future use. Otherwise, any surplus is wasted, and the entire system becomes inefficient from a cost and renewability standpoint.
Therefore, the BESS is the glue that holds the entire Microgrid together.When the Microgrid draws energy from multiple sources, it is stored in the BESS. The intelligent energy management software then comes into its own, directing where and how the energy should be used for optimal efficiency.
Keen to learn more about BESS? Learn how battery energy storage is aninnovative solution to the climate crisis.
At AceOn, we are leading the way for BESS adoption in the UK market and have developed a number of exciting partnerships across multiple sectors to accelerate the use of battery energy storage for improved energy efficiency. Ourindustrialandresidentialenergy storage solutions are cutting-edge and are reshaping the future direction of renewable energy in the United Kingdom.
Ultimately, without battery energy storage, Microgrids become inefficient and less reliable. As such, the future success of BESS and Microgrids goes hand in hand, and we''re excited about the future opportunities that this technology presents.
As you may be aware, as the DNO often rejects solar applications, Microgrids are one possible solution that we have started to implement across the UK.
Our technology means that the DNO no longer rejects or restricts solar applications due to the potential fault level currents.
Essentially as our inverters can be grid forming and grid following, it means the inverters can work connected to the grid and then also be able to create their own grid in islanding mode, allowing any amount of renewables to be installed. For example, the setup would be as follows:
1x Load side (Microgrid) Inverter
We would choose the grid-side inverter size to match your max potential site import after factoring in the power the renewable generation and battery storage would provide on the microgrid.We would then de-rate the export function to match the agreed export connection with the DNO.
We would then need a DC source (battery) which enables us to formulate a new grid, and the size of the battery will need as minimum to be = or > than the Load side grid forming inverters.
The Load-side microgrid inverter will need to match the site’s peak power ideally so it can provide power from the battery.
Solar generation feeds load 1stand only excess solar is used to charge the battery or exported. The solar is fed directly to the factory distribution and measured. That measurement is then used to calculate the import of energy towards the battery.
This is where we need to then do a battery sizing exercise, i.e., calculate excess solar overload, to maximise self-consumption and potentially any potential for the import and storing of cheap night-time energy.
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