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Heat pump

device that transfers thermal energy in the opposite direction of spontaneous heat transfer

A heat pump is a machine that moves heat from a cold place to a hot place. Examples include:[1][2][3][4]

  • Refrigerator. It moves heat from the inside to the outside. This keeps the food inside cold, so it will not spoil.
  • Air conditioner. It moves heat from the inside of a building to the outside.
  • Peltier device. It moves heat from one side to the other by means of an electric current.
  • Some buildings are heated with heat pumps, also. In the winter, the heat pump moves heat from the outside to the inside. Sometimes this works better than heating with a radiator.

How it works

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Usually, heat flows from a hot place to a cold place, according to the second law of thermodynamics. Heat will not move from a cold place to a warmer place by itself. Because of this, a heat pump must use extra energy to move the heat. This is sort of like pumping water uphill.

Most heat pumps use electric motors to provide energy. Some heat pumps use heat energy, supplied by a flame or an electric heater.

 
A simple picture of a heat pump's refrigeration cycle: compressor (4) compresses fluid; hot fluid (1) gives up heat, fluid passes through expansion valve (2), fluid takes up heat (3) and gives off cold.

Most heat pumps have a refrigeration cycle using a compressor. A refrigeration cycle uses a fluid which moves through tubes and carries the heat. The fluid is called a refrigerant. During the refrigeration cycle, the refrigerant changes from a liquid to a gas and back to a liquid.

When the refrigerant changes from a (compressed) liquid to a gas, it absorbs heat energy from the environment. When the refrigerant changes from a gas back to a liquid, it loses heat energy.

The heat pump is set up so that the refrigerant gains heat from one place that will be cooled, and moves it to another place that will be warmed.

A heat pump forces the refrigerant to change from a gas to a liquid. It uses a compressor to do this. Often, an electric motor drives the compressor. The compressor compresses the refrigerant, and this makes it change from a gas to a liquid. Compressing will heat up the liquid extensively.

At the other end of the cycle, the refrigerant boils again, absorbing heat from its surroundings, it cools them down. So where the refrigerant is changing from a liquid to a gas, it feels cooler.

This is the complete cycle, from the cooling side to the heating side: On the cooling side, heat is taken up to boil the refrigerant from a liquid to a gas. Then the fluid moves to the heating side.There, the compressor forces the refrigerant back to a liquid again. This makes it give up its heat. So heat has moved from the cooling side to the heating side. Then, the cycle repeats.

If the cooling side is the inside of a refrigerator, it gets cold.

If the cooling side is the inside of a building, and the warming side is the outside of the building, the inside of the building gets cold. This is how an air conditioner works.

If the cooling side is the outside of the building, and the warming side is the inside of the building, this is how a heat pump can heat a building during the winter.

United Kingdom

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The British government sees heat pumps as an important part of moving away from fossil fuels. They want to see 600,000 new heat pumps per year by 2028. There is a grant of £7,500 to help with the cost. In 2024 not many people were fitting them.[5]

Other websites

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References

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  1. "Heat Pump Systems". Energy.gov. Retrieved 2024-10-30.
  2. yifei (2024-09-03). "Best Heat Pump Manufacturers". NEWNTIDE. Retrieved 2024-10-30.
  3. "8 Manufacturers Complete Heat Pump Challenge | ACHR News". www.achrnews.com. Retrieved 2024-10-30.
  4. Merrett, Neil (2024-10-24). "Heat pump industry heads to Westminster for 'myth busting' event". Heating and Ventilation News. Retrieved 2024-10-30.
  5. "Low uptake of heat pumps slowing efforts to decarbonise Britain's homes". www.ft.com. Retrieved 2024-03-18.