An air source heat pump is an efficient and eco-friendly way of heating your home without the need for a traditional gas or electric heating system. If you want to reduce your current heating bills while doing your bit for the environment, then read on to find out how you can achieve this with an air source heat pump.
An air source heat pump works by transferring heat from the outside air to an indoor space. A fan draws in air from outside and transfers it to an evaporator, which is situated in the heat pump. A refrigerant circulates inside the pump, which changes its physical state and evaporates even at low temperatures. The refrigerant steam needs to be raised to a level where it can be used for your heating and hot water, so it’s compressed using a compressor. The heat produced in this process is transferred to the heating and hot water systems in your home. Which? has created a handy illustration that demonstrates how the pump works.
The pump uses electricity to run, but it should use less energy than the heat the pump produces. If you want to make your home even more eco-friendly, you could install solar panels to run the air source heat pump. This will help you to reduce your energy bills and your carbon footprint.
An air source heat pump can generate heat even when the temperature outside is as low as -15°C, so homes in the UK will benefit from this type of heating system throughout the year. They tend to have a longer lifespan than a typical boiler and should only need to be replaced every 20 years or so.
The cost of an air source heat pump could depend on a number of factors, including the size of your house. When you’re getting quotes for the job, you should make sure the installer is MCS-certified and a member of one of the two consumer codes: Renewable Energy Consumer Code or Home Insulation & Energy Systems Contractors Scheme.
A heat pump will generally cost around £7,000 to £9,000 but, once installed, you should see a drop in your bills and the pump won’t need to be replaced as soon as a boiler would.
A further cost that you may have to factor in is additional home insulation. Air source heat pumps will work much more efficiently if your home is able to maintain the heat that the pump produces. This might mean upgrading your current home insulation to ensure your pump is heating your property as efficiently as possible.
Franck Energy has calculated that the average yearly running cost of an air source heat pump is £520 based on average home usage in the UK. This could bring you an annual saving of up to £216 if you currently use a gas boiler.
If your pump installer is MCS-certified, you could apply for the Renewable Heat Incentive, which is run by the UK government. The scheme means that you could receive quarterly cash payments spread over seven years for installing a renewable heating technology such as an air source heat pump. You need to apply for the scheme within one year of the commissioning date of your system. It’s another cost benefit to having an air source heat pump system.
Air source heat pumps can be effective if your home suits this kind of technology.
Home insulation can make a huge difference to the effectiveness of your heat pump. A well-insulated house requires one kW of heat for every 25m2, but a badly insulated house will only heat 10m2 per kW of heat. This means that a house with poor insulation could require two and a half times more energy to heat it.
To get the most from your air source heat pump, your home should have good insulation and large radiators and/or underfloor heating. Windows should be double glazed and you should invest in draught excluders to make sure you’re keeping as much heat in your home as possible.
Pumps are more versatile than boilers as they can be powered by wind energy or solar power to save you more money. They can heat hot water for immediate or later use and require very little maintenance to keep them performing at their best. They’re an excellent choice for people who want to reduce their home’s ecological footprint or are looking to modernise their home.
Pump sizes range from 6kW to 15kW. The size you need depends on a range of factors, including:
The outdoor design temperature is the average temperature outside so this is dependent on where you live. It’s usually based on the coldest temperature of the year in your area. For example, a home in Scotland will have a lower average outside temperature than a home in Cornwall.
The desired room temperature is the temperature you, the homeowner, would prefer. 21°C is a popular home temperature, but if you want your home cooler than this, you could have a smaller pump.
The flow temperature comes down to the size of your radiators and the standard of your home insulation. If your radiators are too small, the flow temperature will need to be higher.
Your installer should be able to tell you what size air source heat pump you need. They can do this using specialist design calculation software that determines the pump size needed to match the heat demand. If a pump is too big, it’ll short cycle all the time. If it’s too small, it’ll use the backup heater too often to keep the heat at a constant level. Both of these issues could cost you more in the long term.
Depending on the system and the quality of the installation, your air source heat pump should produce around 40 to 60 dB of noise. A computer is around 40 dB and a refrigerator is around 50 dB, so pumps are not very loud. The noise you’ll be able to hear coming from your pump could be either the fan or the compressor. Some heat pumps may have advanced acoustic design which will help to minimise noise.
The UK government has stated that the noise shouldn’t be higher than 45 dBs when it’s one metre away from the window of a neighbouring property. If you find that your pump is considerably louder than this, you could contact your installer to see if there’s anything they can do.
You should weigh up all the options involved when choosing an air source heat pump. There are lots of things to think about, including who will install it, whether it will be more cost effective than your current system, how much noise it will make and whether you have to make any other home improvements to get the most out of your new pump. We hope that we’ve answered these questions and more for you in this post.