Heat Pumps for Cold Climates - Is It Expensive? - NY.gov

How Heat Pumps Are More Efficient

Modern heat pumps are three times more efficient than conventional oil, propane, or electric resistance heating. That&#;s because heat pumps only need to use electricity to power the system&#;s fans and pumps &#; they don&#;t need to use electricity for the generation of heat itself. They simply transfer heat (or &#;thermal energy&#;) from the outdoor environment to the indoor space. Traditional electric resistance heating systems do use electricity to create heat, meaning they must work much harder than a heat pump in order to make an indoor space feel comfortable.

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Installing a Properly Sized Heat Pump

When purchasing and installing a heat pump, it is important that the size and location of the system matches the size and layout of the home. An oversized heat pump system is inefficient and could lead to a heat pump project costing more than it needs to. On the other hand, an undersized heat pump system may not be able to adequately heat and cool a home. Working with a NYS Clean Heat participating contractor will ensure your installed heat pump system is properly sized to meet your home&#;s needs.

Weatherization Helps Homeowners Spend Less

Before purchasing a heat pump, remember that air sealing and insulating first can help homeowners save money on heat pump installation costs by making it possible to effectively heat and cool a home with smaller, less expensive equipment. Air sealing and insulating also helps cold-climate heat pumps operate more efficiently, which can mean even lower monthly energy bills &#; and even greater comfort. To identify where your home may need air sealing or insulation, connect with a NYSERDA participating contractor to schedule a no-cost home energy assessment.

Heat pumps are revolutionary in terms of efficiency, delivering more heat output than the electricity input. Yet, they are still powered by electricity, and with the price per unit still high and considerably higher than that of a unit of gas, how much does a heat pump cost to run? And in the heat pump vs gas boiler equation, which one comes out cheaper?

Here, we&#;ll look at average running costs for air source heat pumps and ground source heat pumps, and compare them to the average gas boiler.

It&#;s also worth noting that heat pumps aren&#;t just about efficiency, but reducing carbon: they&#;re a clean alternative that may be worth the investment if environmental concerns trump running costs for you.

A note on the price cap (1 July to 30 September )

It used to be that you could sign up for cheaper deals if you locked yourself into a supplier for longer, you could get a better deal. However, with fluctuations in the energy markets and despite prices having come down in recent months, most of us are tied to the energy price cap, which is set by the regulator, Ofgem, to limit how much you have to pay per unit of gas and electricity, as well as the daily standing charge.

There are minor regional variations, so we&#;ve used the average prices for this feature, as published by Money Saving Expert, which currently stand at 5.48p per kWh of gas, and 22.36p per kWh of electricity, assuming that bills are paid by direct debit.

Different tariffs are available, so the price you pay may differ from these figures, but using the current averages gives us a good comparison.

Just be aware that the price cap changes every three months. When we get the new figures, we&#;ll update this article to give the current view.

It&#;s expected that prices will increase again in October , which will make the figures change again. The higher gas prices go, the inefficiency of this heating method tends to mean that heat pumps become comparatively cheaper to run.

However, on average, assuming you can remove gas entirely and don&#;t have to pay for a standing charge, heat pumps will, at worst, cost around the same as a gas boiler and, at best, be significantly cheaper to run.

If you have solar power or a time-of-use tariff, available through a smart meter, then you can see even bigger savings with a heat pump.

Heat pump efficiency

Before we get into the figures, it&#;s important to look at the efficiency of heat pumps. Efficiency measures how much of the source power is converted to output heat.

With a modern gas boiler running in condensing mode, you can expect around a 90% efficiency rate, according to British Gas, which also estimates that 11,500kWh of gas is used for the average household.

At 90% efficiency, it means that for the average UK gas input, 10,350kWh is delivered as heat output, with the remainder lost as waste. However, according to the latest government research gas boilers have an average efficiency of between 75% and 85%. Taking an average of those figures, we get a gas boiler efficiency of just 80%. That means the average UK house has 9,200kWh of heat output per year for heating and hot water.

So, what about heat pumps? These devices absorb warmth, either from the air or captured from the ground, to heat your house and hot water. Effectively, they work like a fridge in reverse. Because they&#;re moving heat from one source to another, they&#;re highly efficient.

Efficiency varies based on the outside temperature, so heat pumps are best compared using the seasonal performance factor (SPF), which is the average Coefficient of Performance (COP) measured over the full heating system.

The COP is the ratio of heat output in kWh to the input electricity in kWh. In the UK, the SPF of a typical air source heat pump is 2.8 (280% efficiency), which means that for each kWh of electricity used, 2.8kWh of heat output is achieved.

Ground source heat pumps are even more efficient, as ground temperatures fluctuate less over a year than air temperatures. There are no current UK figures, but the Fraunhofer Institute in Germany measured performance in -, and found that ground source heat pumps were 410% efficient (SPF of 4.1). In other words, for each kWh of electricty consumed, heat output is 4.1kWh.

These figures are just averages. Heat pumps can be a lot more efficient if installed properly, tuned for the house and used properly with technologies such as weather compensation, which adjusts the flow temperature based on the outdoor temperatures.

One home in Yorkshire found an average COP of 5.4 throughout December , which is far higher than the official average. Likewise, with a properly configured gas boiler, the averages are likely to be higher.

That said, by comparing the official averages, we can get a good idea of the differences in running costs. Just be aware that in your home, your actual running costs can differ significantly.

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Heat pump running costs explained

Assuming the worst-case scenario for a gas boiler, the average UK home needs 9,200kWh of heat ouput per year for hot water and gas. For a gas boiler, this needs 11,500kWh of gas per year.

An air source heat pump needs just 3,286kWh of electricity for the same output, and the ground source heat pump needs just 2,244kWh of electricity annually.

Assuming the current price cap, the running costs are listed below.

Gas boiler

Gas required: 11,500kWh

Gas price: 5.48p per kWh

Annual running cost: £630.20

Air source heat pump

Electricity required: kWh

Electricity: 22.36p per kWh

Annual running cost: £734.69

Ground source heat pump

Electricity required: kWh

Electricity: 22.36p per kWh

Annual running cost: £501.74

As you can see, an air-source heat pump will cost £104.49 more a year to run than a gas boiler, on average, but a ground-source heat pump will be around £128.46 cheaper to run.

However, if an air-source heat pump is fine-tuned to a property and the SFP is increased to 3.1 (the average in Germany), then an air-source heat pump would only be £33.39 more expensive than a gas boiler per year.

Hit an SFP of four with a very finely tuned system and a very insulated property and an air-source heat pump would cost £115.29 less than a gas boiler to run.

No gas standing charges

The figures above don&#;t include the standing charges and just have the unit costs. That&#;s because we all have to pay standing charges, even if we turn everything off in our homes.

However, without gas heating and by switching to electric cooking, such as using an induction hob, there&#;s no need for gas anymore, which means you don&#;t have to pay the two separate standing charges.

Currently, the average electricity standing charge, according to Money Saving Expert, is 60.1p per day, which is £219.37 a year. Gas has an average standing charge of 31.41p per day, which works out to £114.65 per year. If you don&#;t have gas, you&#;ll save this much per year, which can mean that going electric only is cheaper than having dual fuel.

Improved efficiency, solar and smart tariffs

All the information above is based on averages, but the real picture can be even more different. First, heat pump technology is improving, and installers are gaining experience in sizing systems correctly for properties, as well as matching the correct radiators and underfloor heating systems.

In Germany, for example, the average air source heat pump efficiency stands at 310%. Things will improve in the UK, increasing the efficiency of heat pumps and reducing costs further.

Our prices are also based on the current energy cap. If you have solar panels, then the cost of electricity will be reduced, so your heating and hot water costs will also go down. Then, there are smart tariffs, which can offer cheaper rates at certain times during the day. Using cheaper electricity can reduce running costs directly at those times; those with battery storage can store cheap energy and use it later in the day.

Installation costs

A new gas boiler is likely to be cheaper to install than a heat pump, but that&#;s only part of the story. Thanks to the Boiler Upgrade Scheme, you can now get £7,500 towards installation costs of a heat pump, as the government helps push households towards eco-friendly heating solutions.

With this amount of cash, an air-source could heat pump could be installed with either no outlay or only a small contribution, depending on the size and complexity of the installation; a ground-source heat pump will cost more to install, but £7,500 goes a long way towards paying for it.

There are some requirements before you can apply for the grant, including an up-to-date EPC and sufficient insulation, but even so, for many households, upgrading to a heat pump should be very cost-effective.

For more information, please visit Air Source Heating And Cooling.