Technologies

How it works? Part 1.

Any appliance that takes heat from one area and moves it to another is a heat pump.

Most heat pump installations involve what is called a split system. The outdoor unit contains the compressor and a heat exchanger, called a coil. The indoor unit contains another coil, a fan that blows air through your duct system, grille, and electric heating elements.

The outdoor and indoor units are connected by copper tubes that move a gas refrigerant (such as Freon) between the indoor and outdoor coils. This refrigerant has the ability to absorb heat from the air, even at very low temperatures.

In the winter, the refrigerant absorbs heat from outdoor air drawn across the outdoor coil. The refrigerant becomes hot but is made even hotter (in excess of 140 degrees F) by going through the compressor.

This hot gas travels through a copper tube to the indoor coil. The fan draws air through your return grille and pushes the air across the indoor coil. The hot gas transfers its heat to the air blown across the coil and into the duct system.

1. Outdoor coil extracts heat from outdoor air.
2. Refrigerant gas carries heat to indoor unit.
3. Circulating indoor air picks up heat and carries it throughout the home.

In the summer, your heat pump simply reverses the flow of refrigerant. Now the refrigerant absorbs heat from room air blown across the indoor coil. In this manner, heat and humidity are removed from the air, and cool, dry air is distributed throughout your home.

The absorbed heat is carried by the refrigerant through the copper tube to the outdoor unit. Here the refrigerant goes through the compressor, then moves through the outdoor coil, which transfers the absorbed heat to the outdoor air.

  Indoor coil extracts heat from home’s air.

  Refrigerant gas carries heat to outdoor unit.

  Outdoor coil transfers heat to outdoor air.

 Ground Source Heat Pump and Savings. Part 2.

Ground source heat pumps use a buried ground loop which transfers heat from the ground into a building to provide space heating and, in some cases, to pre-heat domestic hot water. As well as ground source heat pumps, air source and water source heat pumps are also available.

The benefits

The efficiency of a ground source heat pump system is measured by the coefficient of performance (CoP). This is the ratio of units of heat output for each unit of electricity used to drive the compressor and pump for the ground loop. Average CoP over the year, known as seasonal efficiency, is around 3-4 although some systems may produce a greater rate of efficiency. This means that for every unit of electricity used to pump the heat, 3-4 units of heat are produced, making it an efficient way of heating a building. If grid electricity is used for the compressor and pump, then you should consult a range of energy suppliers to benefit from the lowest running costs, for example by choosing an economy 10 or economy 7 tariff.

How it works

There are three important elements to a ground source heat pump:

1.        The ground loop
This is comprised of lengths of pipe buried in the ground, either in a borehole or a horizontal trench. The pipe is usually a closed circuit and is filled with a mixture of water and antifreeze, which is pumped around the pipe absorbing heat from the ground.The ground loop can be:

o              Vertical, for use in boreholes

o              Horizontal, for use in trenches

o              Spiral, coil or 'slinky', also for use in trenches

2.        A heat pump
In the same way that your fridge uses refrigerant to extract heat from the inside, keeping your food cool, a ground source heat pump extracts heat from the ground, and uses it to heat your home. A ground source heat pump has three main parts:

o              The evaporator, (e.g. the squiggly thing in the cold part of your fridge) absorbs the heat using the liquid in the ground loop;

o              The compressor, (this is what makes the noise in a fridge) moves the refrigerant round the heat pump and compresses the gaseous refrigerant to the temperature needed for the heat distribution circuit;

o              The condenser, (the hot part at the back of your fridge) gives up heat to a hot water tank which feeds the distribution system.

3.        Heat distribution system
This consists of under floor heating or radiators for space heating and in some cases water storage for hot water supply.

Is it suitable for my home?

You should consider the following issues if you're thinking about installing a ground source heat pump. An accredited installer will be able to provide more detailed advice.

·               You will need space outside your house for the ground loop.

·               The ground will need to be suitable for digging a trench or borehole.

·               What fuel is being replaced? If it's electricity, oil, LPG or coal the savings will be more favourable than gas. Heat pumps are a good option where gas is unavailable.

·               The type of heat distribution system. Ground source heat pumps can be combined with radiators but these will normally be larger than with standard boiler systems. Under floor heating is better as it works at a lower temperature.

·               Want to further reduce your home's carbon dioxide emissions? Install solar PV or some other form of renewable electricity generating system to power the compressor and pump.

·               Is the system for a new building development? Combining the installation with other building works can reduce costs.

·               Have you installed insulation measures? Wall, floor and loft insulation will lower your heat demand and make the system more effective.

Costs and savings

A typical 8 - 12kW system costs £6,000 - £12,000 (not including the price of distribution system). This can vary with property, system size and location. Vertical ground loop systems are significantly more expensive to install than horizontal ground loops, due to the higher cost of drilling a borehole. When installed in an electrically heated home a ground source heat pump could save as much as £1000 a year on heating bills and almost 7 tonnes of carbon dioxide a year. Savings will vary depending on what fuel is being replaced.

Savings above assume ground source heat pump installed in a detached property and provides up to 50% of domestic hot water as well as 100% of space heating.