Heat pumps

Renewable energy solutions for sustainable buildings using natural sources such as air, ground and water to provide heating, cooling and hot water.

Renewable energy solutions for sustainable buildings using natural sources such as air, ground and water to provide heating, cooling and hot water.

Heat pumps are the perfect partner for heating and cooling systems designed to work at lower temperatures, helping to support the design and construction of more energy-efficient and cost-effective buildings.

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Types of Heat Pumps

For new residential dwellings, Air Source Monobloc and Split System Heat Pumps are ideal solutions for high efficiency hot water generation and space heating.

Air Source Heat Pumps (ASHPs)

Hot Water Heat Pumps are a low-carbon technology water heater, designed to be an alternative to gas boilers installed within a building.

Hot Water Heat Pumps

Ambient Loop Heat Pumps use a network of water heat pumps connected to an ambient loop and can improve the energy performance and running costs of a building.

Ambient Loop Network

What do heat pumps mean for you?

All in one soluton

Heat pumps can be used to both heat a home or building as well as provide hot water.

Environmentally friendly solution

No carbon dioxide output helping to reduce carbon footprint of your home.

Saving money on energy bills

Being more efficient than traditional sources, heat pumps consume less energy overall.

High output low noise

Heat pumps are a clean and quiet way to heat and cool your home.

How do heat pumps work?

Heat pumps extract heat from natural sources such as air and water and transfer it to a refrigerant, which is a fluid with a very low evaporation temperature. Once the refrigerant is heated it is turned into a gas, which is then compressed to further increase its temperature. The compressed gas is then used to heat water for domestic and commercial use. Finally, an expansion valve reverts the gas back into a liquid and the cycle starts again.

Featured product

Edel

Our Edel RF Hot Water Heat Pump (HWHP) is a low carbon technology for heating hot water. This heat pump can create hot water up to 60°C, is high performance with low operational noise and is suitable for installation within service cupboards, garages and utility rooms.

Explore Edel
Our Edel RF Hot Water Heat Pump (HWHP) is a low carbon technology for heating hot water. This heat pump can create hot water up to 60°C, is high performance with low operational noise and is suitable for installation within service cupboards, garages and utility rooms.

Heat Pump Specification

Our Heat Design Team

Need to understand the heat loss and load of a new project? Want to ensure your home is compliant with the latest sustainability regulations? Want to know how to budget for a new heating system?

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Need to understand the heat loss and load of a new project? Want to ensure your home is compliant with the latest sustainability regulations? Want to know how to budget for a new heating system?

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Ground and Water Source Heat Pumps

Ground and Water Source heat pumps are ideal for projects where early consideration can be given to groundworks and infrastructure. These variations are best suited to developments that are located near a large body of water or where a large trench can be dug before building begins.

FAQ

Air Source Heat Pumps (ASHPs)

Air source heat pumps (ASHPs) are often easier to install than their ground or water source alternative as they only require connection to the main water supply, an electrical connection and in some instances a refrigerant connection. This type of heat pump is ideal where space is limited as there is generally no need to bury pipes or be close to other energy sources such as boreholes, canals or large bodies of water. Air source heat pumps can be used in residential and commercial applications of all sizes including high rise buildings where the units can be installed on the roof or at ground level.

Ambient Loops

Beyond using water as the primary energy source from which heat is drawn, heat pumps can also be used in a closed water to water ambient loop, kept within operating parameters by a primary plant technology such as an air source heat pump or a gas boiler. Reverse cycle heat pumps can transfer rejected energy from one area to another within a space or a building where there is a requirement. Where there is not a demand for this energy, it is rejected from this internal loop into the external surroundings or stored within buffer vessels to be drawn upon when needed. These are growing in popularity within communal residential schemes, especially in city developments which can benefit from a low temperature network.

Hot Water Heat Pumps

Hot water heat pumps (HWHPs) are a low carbon technology for heating hot water and are designed to be installed within the dwelling itself. They consist of a ducted system to supply external air to an air source heat pump mounted on top of a water cylinder. The heat pump collects energy from the ambient air and converts this into heat, which is then transferred to the water within the cylinder, creating hot water to be used in the building. The remaining cold air is then discharged outside.

Hot water heat pumps are often used as part of a hybrid heat pump system; predominantly used in new build residential applications to provide hot water, alongside a separate electric or gas heating system. This makes HWHPs a highly flexible system with cost and installation benefits when compared to their larger heating and hot water alternative.

Ground source heat pumps (GSHPs)

Ground source heat pumps (GSHPs) use a series of ground loops to absorb heat energy from the ground. These loops can either be installed in horizontal trenches around one meter in depth, or vertically in a borehole. Boreholes offer a little less disruption to the surrounding landscape but may require a little more capital upfront for the installation. GSHPs can be better suited for new build developments where the need for external space, (to install the ground loop) and the internal space (for the buffer tank and water cylinder) can be factored in at the early design stages. They can also be installed in existing buildings where the space and geographical needs are met and disruption is not an issue.

Heat pumps and hot water heat pumps provide an efficient way to meet the hot water and space heating demands within a building. Compared to boilers with a typical Coefficient of Performance (COP) of 0.9, heat pumps can achieve a COP of over 2.0 for hot water and over 3.0 for space heating. The higher efficiency of heat pumps increases their cost-effectiveness. Achieving this target can be challenging. However, the specification of heat pumps will meet that challenge and can also help maximise efficiency and minimise running costs.

Heat pumps are reducing in cost as the market grows. The initial outlay can be offset by the government's Boiler Upgrade Scheme, launched in April 2022. This gives homeowners a grant of £5,000 towards the installation of an air source heat pump and £6,000 towards the cost of a ground source heat pump installed by an MCS (Microgeneration Certification Scheme) accredited installer. This scheme is expected to run for three years, leading to 2025. As with all government schemes, it is worth checking that it is still available and keeping an eye out for new schemes as the push to net zero carbon gathers pace.

The sound level air source heat pumps (ASHPs) produce will depend on the type, monobloc or split system, make and model of the unit. This must be no greater than 42 dB(A) (the noise level you would experience in a quiet library) under the Microgeneration Certification Scheme Planning Standards (MCS) before they can be allowed as permitted development. Some exterior ASHPs can have special noise reducing casings if they are installed in enclosed spaces where noise might be more noticeable, such as courtyards. Ducted ASHPs can be installed inside the dwelling as another way of achieving the required level of acoustic comfort.

Heat pumps can be installed in existing homes that undergo a deep retrofit. Where the fabric energy efficiency is high, low carbon heating technologies are a viable alternative to gas and can deliver hot water and space heating effectively.

Heat pump installers, like gas boiler installers, are trained to fit the equipment correctly in line with the manufacturer's guidelines, applicable industry standards, and regulations. So, heat pumps do not require specialist installers. Manufacturers of innovative low carbon technologies, such as ambient heat networks and hot water heat pumps, often design their systems to be pre-plumbed and pre-wired to optimise the speed and quality of installation.

Useful information

What are the different types of heat pumps and where would you use them?

There are three types of heat pumps available for the built environment, classified by where they source their primary energy: air, ground or water. Each has its benefits depending on the application and specific design conditions.

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The six main heat pump myths debunked

The increased focus on heat pumps, including air source heat pumps, both monobloc and split system, has intensified the discussion on this low carbon technology that is sometimes misunderstood.

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Specification drivers of air source heat pumps for residential dwellings

The main specification driver of monobloc air source heat pumps and split system air source heat pumps for residential dwellings is focussed on selecting a heat pump with the right performance output to match the heating and hot water demands of the dwelling.

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Hybrid heat pump electric panel heating new developments

Highly efficient hybrid electric solutions combine hot water heat pumps and direct electric panel heating to reduce the carbon footprint of new build residential developments

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We offer a wide range of CPD UK and CIBSE accredited CPDs covering different aspects of the design and specification of heat pumps. All CPDs can be delivered online or in person.

CPDs

Dimplex is here to assist you in your project with expert information. Our frequently updated and curated content library is here to break down key information, finding you the correct specifications and saving you essential time for your project.

Specifier Hub

We can offer hands-on face-to-face training on Dimplex products, including heat pump principles and servicing, and a course covering our Edel hot water heat pump.

Product training
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How do we maximise the potential of heat pump technology to help us achieve net-carbon objectives?

The roadmap to achieve the UK’s 2050 net-zero carbon target is still relatively unclear. This creates uncertainty about the implementation of low carbon solutions in the industry. The lack of direction in turn affects the ability to plan for future developments. Difficult specification choices, doubts over futureproofing strategies, and lack of preparedness for regulatory changes, are just some of the factors affecting heat pump specification in new developments and existing buildings in both residential and commercial sectors.

6 min read
heat pump in building

Which technologies are the most viable to deliver the decarbonisation of heating?

To deliver the decarbonisation of heating, we should deploy a wide range of technologies that can help to eliminate the use of high carbon fossil fuels. Electric solutions, especially those that utilise renewable energy, offer a viable route to ensuring our homes are heated in a low carbon way. To successfully transfer to electrical infrastructures and make the necessary adjustments that bring us closer to achieving the UK’s 2050 net zero target, the industry will need a clear plan with achievable interim targets.

5 min read