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How Heat Pumps Actually Work: The Science Explained

Heat pumps use clever but well understood science to move heat from the outside environment to where you need it, even when it's cold outside.

Harnessing Nature's Energy: The Rise of Heat Pumps

As homeowners and businesses seek more energy-efficient and eco-friendly heating solutions, air source heat pumps (ASHPs) have emerged as a game-changer. These innovative systems harness the readily available heat energy from the outdoor environment, even in chilly temperatures, and transfer it to water for space heating or hot water production. With their impressive efficiency and versatility, heat pumps are rapidly gaining popularity as a sustainable alternative to traditional heating systems.

So What is a Heat Pump?

A heat pump is a device that transfers heat energy from a low-temperature source to a higher-temperature sink, essentially moving heat rather than generating it. This means that unlike traditional heating systems that burn fossil fuels to create heat, heat pumps require only a small amount of electricity to power the machinery. There are two main types of heat pumps: air-source and ground-source.

Air-source heat pumps extract heat from the outdoor air, while ground-source heat pumps do so from the ground or groundwater. Air source is the more popular technology owing to its lower cost and easier installation. Ground-source systems often require extensive excavation and installation of underground loops or boreholes, making them more suitable for larger-scale projects or new construction (for more detail on ground source heat pumps, see our blog post).

Air-Air Heat Pump for Heating and hot Water in Front of an new built Residential Building_editedAbove: A 'monobloc' Air-source heat pump unit

The Refrigeration Cycle: The Heart of Heat Pumps

Heat pumps operate on the principles of thermodynamics. This is the science behind how heat, temperature and energy transfer from one place to another. At the core of this is the refrigeration cycle, a remarkable process that enables the transfer of heat from one medium to another. This cycle consists of four main stages:

  1. Evaporation: The heat pump takes in ambient air and its cool, low-pressure liquid refrigerant absorbs the air's heat as it passes through the unit's evaporator, causing it to return to a gaseous state.
  2. Compression: This refrigerant gas is compressed, raising its pressure and temperature.
  3. Condensation: The hot, compressed refrigerant gas passes through the condenser, releasing heat to the water circulation system and condensing into a liquid.
  4. Expansion: The liquid refrigerant then passes through an expansion valve, where its pressure drops, causing it to cool.
  5. The cycle repeats, starting with the Evaporation stage.


The Heat Pump Compression Cycle  (1)

This continuous cycle of evaporation and condensation allows the heat pump to extract heat from the outdoor air and transfer it to the water circulation system, providing efficient heating for your home.

How Air-to-Water Heat Pumps Work

Air-to-water heat pumps are the most common type of heat pump in UK homes, and are perfect for temperate climates. They are designed to extract heat from the outdoor air and transfer it to water, which is then circulated through your home's pipework to radiators, underfloor heating systems, or hot water tanks, providing efficient heating and hot water for your home.

The use of water as a heat distribution medium offers several advantages, including improved efficiency and compatibility with existing heating systems. Additionally, air-to-water heat pumps can provide both space heating and hot water, making them a versatile solution for heating needs.

Efficiency and Performance: A Sustainable Choice

One of the key benefits of air-to-water heat pumps is their impressive energy efficiency. According to the Energy Saving Trust, a well-designed and properly installed air-to-water heat pump system can deliver up to four times more heat energy than the electrical energy it consumes. In contrast, fossil fuel heating systems like conventional boilers generate less than one unit of heat per unit of fuel. This means cost savings on your heating bills, as well as a reduced environmental impact compared to traditional heating systems.

Furthermore, air-to-water heat pumps can operate effectively in a wide range of outdoor temperatures, even in cooler climates. Advanced technology and proper sizing and installation can ensure optimal performance, with some systems capable of delivering heat even when outdoor temperatures drop as low as -25°C.

Benefits and Considerations for Heat Pumps

Heat pumps offer numerous benefits for homeowners seeking a sustainable and energy-efficient heating solution:

Energy efficiency: As mentioned, heat pumps can deliver up to four times more heat energy than the electrical energy they consume, resulting in cost savings on heating bills.

Environmental friendliness: By utilizing renewable energy from the air, air-to-water heat pumps have a lower carbon footprint compared to traditional fossil fuel-based heating systems, contributing to a more sustainable future.

Versatility: These systems can provide both space heating and hot water, making them a versatile choice for meeting your heating needs.

Long-term savings: While the upfront installation costs may be higher than traditional heating systems, the long-term energy savings and lower operating costs can offset the initial investment over time.

However, it's important to consider potential factors such as proper sizing and installation by qualified professionals, as well as regular maintenance to ensure optimal performance and efficiency.

Embracing the Future of Sustainable Heating

As we strive for a more energy-efficient and environmentally conscious society, air-to-water heat pumps are the obvious solution for sustainable heating. By harnessing the readily available heat energy from the air and transferring it to water through the refrigeration cycle, these innovative systems offer impressive efficiency, cost savings, and a reduced environmental impact.

Exploring the suitability of heat pumps for your heating needs is a step towards a more sustainable future. With their versatility, performance, and long-term savings, these systems are poised to revolutionize the way we heat our homes and businesses, embracing the power of nature while minimizing our carbon footprint.


Interested in learning more about what a heat pump could do for your home? Get in touch to arrange a free consultation with our heating experts.