Content Writer : Carl Robinson
Source Article : https://www.airahome.com/en-gb/blog/heat-pump-and-solar-panels
Imagine a home not only powered by the sun but also by air. Solar panels and heat pumps are two innovative technologies helping homeowners reduce their energy costs and carbon emissions. Before delving into this synergy, it’s essential to grasp how each component functions individually.
Harnessing the power of the sun, solar panels are ingenious devices designed to transform sunlight into usable electricity for your home. How do they achieve this feat? It’s all thanks to photovoltaic (PV) cells.
PV cells are the core of a solar panel. When sunlight hits these cells, it generates an electrical current. These cells are connected within the panel and to your home’s electrical system.
Solar energy collected by the panels can do more than just keep the lights on. It heats water, powers electric cars, and performs other energy-hungry tasks in your home.
The best part is that solar panels are adaptable, fitting different roofs and orientations.
This versatility ensures that they complement a wide range of homes.
Depending on the type of heat pump, these clean energy-tech units pull heat from the surrounding air, ground, or water and then transfer that warmth to heat your home’s water.
Heat pumps are about 400% more efficient than traditional heating systems like gas boilers. How do they manage this feat? By using a small amount of energy to transfer heat rather than generate it.
Thanks to this efficient process, heat pumps not only slash energy bills by up to £500, but also reduce an average household’s carbon footprint by 100% when using an Aira Clean Energy tariff.
Absolutely! Solar panels can indeed be used to power a heat pump, tapping into the clean and inexhaustible resource of the sun to generate electricity.
A solar array of around 5 kW or 26 m2 (about the area of a parking space) is generally sufficient for the average heat pump. However, bear in mind that without battery storage, your heat pump would need to use electricity from the grid when the sun goes down or on cloudy days. Properly sizing your solar system with battery storage ensures you can harness maximum energy from the sun to keep your energy savings high.
Your roof is more than just a shelter – it’s potential real estate for solar energy harvesting. Ideal roofs for solar panels face south with a pitch between 30-50 degrees.
Traditional roofing materials like asphalt or composite are great when it comes to solar installations due to their durability. Metal standing seam roofs also allow for simple installation.
You can install solar panels on flat roofs, though they might need a little lift with brackets to angle the panels just right, which could lead to a slight uptick in costs.
And how many solar panels can you fit on a roof? That’s a story of budget meets available space – with more square footage, you’re looking at more solar panels.
If you’re wondering how many solar panels to buy, the numbers depend on your home and its geographic position. A typical three-bedroom home might need around 10 panels to power their home and heat pump. Our Clean Energy Expert can inform you how many solar panels you should have during our free home energy assessment.
Selecting the appropriate size for your inverter and battery is crucial for maximising the efficiency of your solar panel system.
Inverter Sizing: The inverter converts the DC power from your solar panels into AC power for your home. It should match or slightly exceed the total wattage of your solar panels. For instance, a 5 kW system requires a 5 kW inverter, though opting for a slightly larger one, such as 5.5 kW, can ensure optimal performance.
The type of inverter matters too: string inverters suit installations with minimal shading, while microinverters are ideal for shaded areas. Hybrid inverters, combining solar and battery functions, are perfect if you plan to add battery storage.
Battery Sizing: Calculating your average daily energy usage is a simple way to size your battery. For example, if you use 20 kWh daily and want 50% coverage, you’ll need a 10 kWh battery. Considering the depth of discharge (DoD) – the percentage of battery capacity that can be used before needing to recharge – is also important. For example, with an 80% DoD, you’ll need a 12.5 kWh battery to get 10 kWh of usable storage.
Example: For a 5 kW solar system and 20 kWh daily usage, aim for a 12.5 kWh battery to cover 10 kWh with an 80% DoD, paired with a slightly larger inverter, like 5.5 kW, for optimal performance. To make things simple, our Clean Energy Experts will recommend your perfect setup during our free home energy assessment.
When you combine solar panels with an air source heat pump, you create a home heating system that’s the stuff of energy-efficient dreams.
This dynamic duo transforms your home into a sustainable sanctuary. Solar panels harness sunlight to generate all the electricity needed for your heat pump, with extra energy left over for your household use.
Integrating solar panels with a heat pump can reduce a household’s carbon emissions by an impressive 3.1 tonnes of CO₂ annually, nearly eliminating your home’s carbon footprint.
Combining a heat pump with solar panels can lead to potential savings of between £1,030 to £1,732 each year on your energy bills. These savings are made possible by the increase in energy efficiency compared to a traditional heating system.
Visit our solar panels page and try our savings calculator to discover how much a heat pump and solar panels can reduce your annual energy bills.
In the colder months, the sun might play hard to get, and solar panels might not be producing the same amount of electricity as in the summer.
However, even in the grip of winter, a well-sized solar array can supply around half of the electricity a home needs when running a heat pump. While you still may need a helping hand from the national grid to keep things toasty after sunset, integrating solar panels with battery storage can be a game-changer, storing excess energy generated during the day for use when the sun goes down.
The upfront cost for a heat pump installation alongside solar panels can vary greatly, typically ranging from £10,000 to £35,000. This price disparity largely depends on the size and model of the system you choose to meet your electricity usage and hot water needs.
However, there’s good news for those looking to make the switch. In England and Wales, the Boiler Upgrade Scheme (BUS) offers a generous reduction, cutting down the heat pump cost by £7,500.
In Scotland there’s up to £15,000 worth of funding available for those looking to make the clean energy switch via the Home Energy Scotland Grant & Loan scheme. With these discounts, investing in a heat pump with solar panels and additional battery storage is far more accessible.
It’s worth noting that while the initial investment might seem steep, the benefits of lower energy costs and increased energy efficiency mean you’ll quickly see a return on your purchase. Plus, with this setup, any excess energy can be stored or even fed back into the national grid, leading to even more savings.
Harnessing the power of solar energy through solar panels coupled with the smart integration of an air source heat pump can significantly dial back your annual energy bills by up to £1,732 while reducing your home’s carbon emissions.
Let’s dive into the numbers to illustrate the potential savings:
By combining solar panels with a heat pump, you’re not only tapping into the sun’s endless supply of solar power, but you’re also efficiently converting that thermal energy into heating for your home. What’s more, if your solar array produces excess solar energy with solar batteries, this can be stored and used when the sun goes down, enhancing your energy efficiency further.
Ultimately, the duo of solar panels and heat pumps presents an efficient solution to combat rising energy prices and contribute to a sustainable future for any UK household.