The truth about heat pumps and the power needed to run them (2024)

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  • Climate

The truth about heat pumps and the power needed to run them (1)Image source, Getty Images

By Justin Rowlatt

Climate editor, BBC News

The way we heat our homes is changing.

As the world moves away from fossil fuels, we will be saying goodbye to our gas fires and boilers - and instead electrifying the heating systems in our homes.

Extinguishing the fires in our homes is a big change, human beings evolved around the comfort of a campfire.

So, what will this mean for you - and the systems that deliver the energy we depend upon?

In just 12 years' time you probably won't be able to buy a gas boiler any more.

The government's ambition is to ban sales of new ones from 2035.

Heating our homes accounts for as much as 16% of the UK's planet-warming carbon dioxide emissions.

The front-runner in the race to replace our boilers is undoubtedly the heat pump.

There is a very simple reason why - they are extraordinarily efficient.

Heat pumps collect energy from an external source - it could be the air, ground or water - and then concentrate it.

They cost more than gas boilers, but for every unit of energy you put in, you can get about three units of heat out.

Sounds like a no-brainer, doesn't it?

Unfortunately, it is not quite as simple as that.

Heat pumps produce hot water at lower temperatures than gas boilers.

That means to get the heat into your home, it is a good idea to have bigger radiators.

And you will keep more of the heat in if your home is well-insulated and has double glazing. But doing that additional work can massively add to your costs.

Typically, it costs £10,000 to buy and install an air source heat pump - the type best suited to most UK homes.

And there is another issue.

Unit for unit, electricity typically costs three times as much as gas.

That means even though your new heat pump is three times as efficient as your gas boiler it costs about the same to run.

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Grants are available to household to help with the cost of installing heat pumps - but it depends where you live and what type of pump you are buying.

The biggest grant available in England and Wales is £6,000 - in rural Scotland it's £9,000 - for a ground source heat pump. That's because it typically costs more to install a ground pump than an air one.

Northern Ireland has schemes which may help some people on lower incomes install heat pumps.

Critics say this support is not enough and that people need more help if the government is going to get anywhere near its target of 600,000 new heat pump installations every year by 2028.

At the moment it is way below that.

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There were just 60,000 heat pumps installed in the UK last year, making it one of the slowest adopters of this new technology in Europe, external.

At current rates of installation, it will take more than 400 years before every British home has a heat pump.

So far fewer than 12,000 grants, external have been cashed - perhaps because it only covers the cost of the pump itself, and not the installation.

And even if households are able to pay, there is another barrier to hitting the government's heat pump targets.

The UK only has 4,000 trained heat-pump installers - it is estimated we will need 33,000 by 2028.

Image source, Getty Images

There are other electric heating systems - immersion boilers, electric fires, fan heaters and infra-red radiators, for example - but none of these is as efficient as heat pumps.

An alternative could be hydrogen-powered boilers.

They are just like your existing gas boiler - so no need for a new set of radiators - except that they burn hydrogen instead of natural gas.

But using hydrogen has its problems - for a start, where would it all come from?

Most of the readily available hydrogen is locked up in the water of our oceans.

The cleanest and greenest way to produce it would be to use electricity, through a process called electrolysis - but most of the time it would be more efficient just to use that electricity to heat our homes with heat pumps.

We could produce hydrogen from the natural gas we currently use, but we would then have to find a way to stop all the carbon dioxide (CO2) the process produces from going into the atmosphere.

The CO2 could be captured and pumped underground - but that is expensive and has never been done at scale before.

What is more, hydrogen boilers have not proved popular with the public.

A trial scheme in Ellesmere Port has just been cancelled after residents refused to have new boilers installed in their homes.

Whatever choices we make about how we heat our homes in future one thing is certain, we are going to need a lot more electricity.

And it all needs to be green.

Right now, at peak times, the National Grid requires 60GW of electricity.

By 2050, some estimates suggest it will need to double to at least 120GW.

At the moment about 40% of our electricity is generated by burning gas - so that's going to have to be phased out.

In 27 years, we need to roughly quadruple the amount of green energy we produce as a country.

So, to get to net zero in time, the government has set an ambitious target - decarbonise the entire electricity supply by 2035.

The UK has been making great progress with offshore wind, but building wind turbines at sea is expensive.

The cheapest renewable power is from onshore wind and solar.

Many experts say the UK will need thousands of much cheaper wind turbines on land.

That will require changes to the planning rules which currently make it very difficult to get approval - opponents say they blight the landscape and there are worries about the impact they have on birds and animals.

And the government says we need more nuclear power too, even though it is expensive and takes years to build.

Most of our existing nuclear plants are due to be shut down in the next few years but there are two big new plants in the offing.

Hinkley Point C in Somerset is massively over budget and is now expected to start operating in 2027.

A second new plant has been proposed in Suffolk, next to Sizewell B, but it has been stuck in planning.

And to get these new sources of electricity into your home the electricity grid needs a massive and expensive upgrade too.

But we can do it, says Emma Pinchbeck, the CEO of Energy UK which represents the power generating industry and the National Grid.

"In my job, what's changed over the last five years has been this is no longer about money. It's about wires in the ground or enough people to build the kit," she says.

We have got the technology to reach net zero, the question is whether we can put it in place fast enough to meet our 2050 target and avoid the worst impacts of climate change.

Update 20 October 2023: This article has been amended to clarify there are three types of heat pumps and to explain what household grants were available at the time of publication on 1 August. The government has announced changes to some grants since this article was first published.

Related Topics

  • Greenhouse gas emissions
  • Climate
  • Nuclear power
  • Heat pumps
  • Renewable energy
  • National Grid

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The truth about heat pumps and the power needed to run them (2024)

FAQs

Does a heat pump use a lot of electricity? ›

On average, an air-source heat pump uses anywhere from 545 watts to 7,500 watts of electricity. The wattage per hour can be calculated by dividing the British Thermal Units (BTUs) needed to heat or cool your home by the SEER for warm months and the Heating Seasonal Performance Factor (HSPF) for cold months.

What is the downside of heat pumps? ›

What are the disadvantages of a heat pump? While heat pumps are highly efficient and versatile, some concerns include their performance in extremely cold temperatures and reliance on electricity.

How much power does a heat pump need? ›

Typically, a small, 1.5-ton-capacity heat pump requires a breaker built to handle 20 Amps and size 12 or 14 wires. If you're operating a large 5-ton-capacity heat pump in your home, pair it with a breaker built for at least 60 Amps and either size 4- or 6-gauge wires.

At what temperature is a heat pump useless? ›

Heat pumps do not operate as efficiently when temperatures drop to between 25 and 40 degrees Fahrenheit for most systems. A heat pump works best when the temperature is above 40. Once outdoor temperatures drop to 40 degrees, heat pumps start losing efficiency, and they consume more energy to do their jobs.

How much electricity does a heat pump use per month? ›

For a typical residential setting, an air source heat pump can use anywhere from 180 to 300 kWh per month. Again, this can fluctuate based on various factors, so it's essential to have a professional assessment.

How much does a heat pump cost to run per month? ›

What exactly is a heat pump?
Heat pump BTU ratingAvg. monthly bill increaseAnnual bill increase
9,000$26$312
12,000$37$444
15,000$47$564
18,000$63$756

What is the major problem of heat pump? ›

Some common reasons include a malfunctioning thermostat, a refrigerant leak, or a faulty compressor. When a heat pump runs non-stop, it not only places unnecessary stress on the unit but also leads to inefficient operation and increased energy consumption.

What is the downfall of heat pumps? ›

Here are the cons of heating and cooling your home with a heat pump: Higher installation cost: Because heat pumps are more complex, they cost more to purchase and install than a comparable air conditioner. However, you may save money compared to replacing an AC unit and furnace at the same time.

Why do people not like heat pumps? ›

Heat pumps loose their effectiveness (not to be confused with their efficiency) the colder it gets outside forcing you to either use the electric heat or stay cold. Systems that are designed poorly so the ductwork is too small resulting in a lot of air noise and drafts that is not as warm.

Are heat pumps really 300 efficient? ›

Heat pumps' real climate superpower is their efficiency. Heat pumps today can reach 300% to 400% efficiency or even higher, meaning they're putting out three to four times as much energy in the form of heat as they're using in electricity.

What is the downside to a heat pump? ›

One of the perceived drawbacks of traditional air-source heat pumps is that they don't operate as effectively once the temperature dips below about 40 degrees, requiring a backup heating source such as electric resistance heating or a gas furnace on those really chilly days.

Will a heat pump work in 100 degree weather? ›

Your HVAC technician or home performance contractor will expertly size your new heat pump for the unique layout and size of your house, ensuring excellent performance year-round—even on the hottest 100-degree days.

Should I turn my heat pump off in extreme cold? ›

People do not need to turn their heat pumps off. Residents should make sure their supplemental home heating systems are on and operating. Set the thermostats to a degree or two lower than heat pumps.

How much does it cost to run a heat pump per day? ›

In a nutshell, the running cost of a heat pump is around thirty cents per hour, and for four hours, the heating cost will be a little higher than $1. In summer, the cooling cost is not more than 10c per hour, and for four fours, you will be spending less than 40c on a hot summer day.

Is it more expensive to run a heat pump? ›

A recent study of 750 households by the Energy Systems Catapult, an independent government-backed researcher, found that heat pumps typically have a SCoP of 2.9. This implies a small extra cost to running a heat pump compared with a gas boiler.

Is a heat pump cheaper to run than electric heat? ›

Generally, heat pumps have a higher upfront cost but lower operating costs due to their higher efficiency. Electric furnaces, on the other hand, tend to have a lower initial cost but can be more expensive to run over time due to their lower efficiency.

Do heat pumps really save energy? ›

The most common type of heat pump is the air-source heat pump, which transfers heat between your home and the outside air. Modern air-source heat pumps can reduce your electricity use by 50% compared to furnaces and baseboard heaters.

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