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Battery storage
Battery storage for renewable energy lets you save the electricity generated by your solar panels or wind turbine for when you need it.
Solar panels generate most electricity during daylight hours. Any electric appliances you use during the day, such as your TV or washing machine, will use this electricity to run. However, if the solar panels produce more electricity than your appliances use, then this extra electricity goes to the electricity grid.
Similarly, on a windy night, a wind turbine generates a lot of electricity. However, if no-one is awake to use it, then this electricity goes to the grid.
With a battery energy storage system, you can keep that extra electricity. If more electricity is generated than is used, then the spare power charges the battery. You can then use this battery to power your appliances when your renewables aren’t producing electricity.
How does battery storage for energy work?
- Solar panels or a wind turbine generates electricity
- An automatic power controller (diverter) sends excess electricity to the battery for energy storage
- The electricity charges the battery
- An inverter makes the electricity ready for use with your appliances. It does this by converting the electricity from DC (direct current) to AC (alternating current)
What’s an automatic power controller?
An automatic power controller works out how to get the best out of the energy that comes from your solar panels or wind turbine.
To do this, the automatic power controller has to:
- Supply the maximum amount of renewable energy to your home
- Limit the amount of electricity your home is buying from the grid.
The automatic power controller tracks how much energy comes from your solar panels or turbine, plus the energy your home is using.
Types of batteries for energy storage
There are two main types of renewable energy batteries for solar panels and wind turbines: lead-acid and lithium-ion. The main differences come down to cost and environmental impact.
Lead-acid batteries are an older style of battery. They can store less energy and don’t last as long as newer kinds of battery. Most have a lifetime of between 700 and 1000 charging cycles.
The main benefit of lead-acid batteries is their cost. Lead-acid batteries typically cost £2,000-£4,500, depending on their capacity. This is around half the price of a lithium-ion battery of the same capacity.
Although the initial cost of a lead-acid battery is relatively low, it needs replacing more often than a lithium-ion battery. The average lifetime of a lead-acid battery is five years.
As the name suggests, lead-acid batteries contain lead, which is a toxic material. At the end of its life, your battery must be carefully and properly disposed of.
Lithium-ion batteries are a newer kind of battery, developed in the late 1980s. They are lighter and smaller than lead-acid batteries.
The higher initial cost of a lithium-ion battery is balanced by its longer lifetime. Lithium-ion batteries should last for around 4000 charging cycles. This means the lifetime of your lithium-ion battery should be around 10 years.
Lithium-ion batteries contain less toxic elements than lead-acid batteries, but they should still be handled and disposed of properly.
DC systems and AC systems
A battery is linked to your solar panels or wind turbine by either AC (alternating current) or DC (direct current) coupling.
The electricity generated by your renewables is DC. To use this in the home, it needs to be converted to AC. To charge the battery, the current has to be DC.
The main difference between AC and DC systems is the number of times electricity is converted from one type of current to the other.
DC coupled battery energy storage systems
A DC coupled battery links directly to your solar panels or wind turbine. Before it can be used in the home or exported to the grid, the electricity from the battery passes through an inverter. This converts it from DC to AC.
AC coupled battery energy storage systems
An AC coupled battery isn’t linked directly to your solar panels or wind turbine. An inverter converts the electricity generated by your renewables into AC current. This becomes part of your mains electricity. If it isn’t used, the electricity is converted back into DC. It then goes into your battery for energy storage.
Grants for battery energy storage systems
Grant funding for battery energy storage systems is available through Home Energy Scotland. You can access £1,250 of grant funding. An extra £6,000 is available as an optional interest-free loan. This funding is only available when taken as part of a package of measures.
For the most up-to-date information about battery storage grants, visit Home Energy Scotland’s grants and loan page. Alternatively, you can call Home Energy Scotland free on 0808 808 2282.
Changeworks delivers Home Energy Scotland in the south east and Highlands and Islands on behalf of the Scottish Government and Energy Saving Trust.
As well as providing free, impartial expert advice to thousands of people every month to help them to keep warm in their homes for less, they identify funding opportunities for households seeking to install energy efficiency measures.
For more information, give Home Energy Scotland a call on 0808 808 2282 or email and the team will be happy to help you.