Animation of a house with the words deeper than six feet under the ground the temperature is stable all year round

Ground source heat pump

How can we get free heating for our homes and other buildings? What do a fridge and a warm, comfortable building have in common?

To heat a building and make it suitable for people to live or work in usually means spending money on fuel which, depending on the fuel, emits carbon into the environment and contributes to climate change. But what if we could get free heating by looking underground?

As you go underground and into the Earth, at around six metres or so, the ground is a stable temperature of about 12⁰C all year round. Whilst this doesn’t sound very warm, we can use technology called a ground source heat pump to make use of the temperature of the soil to keep the inside of buildings at a comfortable temperature.

 

What is a ground source heat pump?

A ground source heat pump is much like a refrigerator. In a fridge, fluid passing through pipes that run both in and outside the fridge is compressed using an electric motor and pumped around so that it changes from liquid to gas and back again. This process keeps the pipes outside the fridge hot and inside cold; cooling the inside and warming the outside.

In summer, a heat pump works in the same way. Pipes running inside the building cool it, and pipes running outside the building warm the ground. In winter, the heat pump works in reverse. The ground is cooled and the inside of the building is warmed.

Diagram showing a building in winter - ground cooled, building warmed and a building in summer - ground warm, building cooled.
 

 

Sustainable energy from underground

In London, the temperature of the clay and soil a few metres below ground remains steady at 12⁰C all year round, while above ground the temperature may vary from below 0⁰C in winter to above 30⁰C in summer. The constant temperature below ground allows a ground source heat pump to work predictably and effectively all year round.

Although heat pumps need electricity to operate, tapping into the energy stored underground allows them to be more efficient and environmentally friendly than more traditional heating and cooling systems. In winter, a heat pump can warm a building as effectively as an electric heater, but only requires a quarter of the power.

In summer, on a long sunny day, it is possible to operate the heat pump using only electricity generated by the solar panels on the roof, which reduces the building's overall carbon dioxide emissions by reducing reliance on electricity generated by power stations.

 

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