FACT: Geothermal systems provide the most efficient, comfortable and environmentally friendly method of heating & cooling.
What is a geothermal heat pump?
A geothermal or “ground-source” heat pump is an electrically-powered device that uses the natural heat storage ability of the earth and/or the earth’s groundwater to heat and cool your home or business at very high efficiencies.
How does a geothermal pump work?
Like any type of heat pump, it simply moves heat energy from one place to another. A geothermal heat pump is like a refrigerator because they work using the same scientific principle. By using refrigeration, the geothermal heat pump removes heat energy stored in the earth and/or the earth’s groundwater and transfers it to the home. Read more on our How Does a Geothermal Heat Pump Work page.
How is heat transferred between the earth and the home?
The earth has the ability to absorb and store heat energy. To use that stored geothermal energy, heat is extracted from the earth through a liquid medium (water or an anti-freeze solution) circulated in the ground via open or closed earth loops and is transferred to the heat pump heat exchanger. There, the heat is used to heat your home. In the summer, the process is reversed and indoor heat is extracted from your home and transferred to the earth through the liquid circulating in the loops underground. A video is available here to better show you how geothermal energy works.
Do I need separate geothermal ground loops for heating and cooling?
No, the same loop works for both. When changing from heating to cooling, or vise versa, the flow of heat is reversed by a mechanism inside the unit.
What is a closed-loop system?
The term “closed loop” is used to describe a geothermal heat pump system that uses a continuous loop of special buried plastic pipe as a heat exchanger. The pipe is connected to the indoor heat pump to form a sealed, underground loop through which water or an anti-freeze solution (if you live in colder climates) is circulated. Unlike an open-loop system that consumes water from a well, a closed-loop system recirculates its heat–transferring solution in a pressurized pipe.
Example of a closed-loop geothermal system – horizontal loop
Example of a closed-loop geothermal system – vertical loop
Where can this loop be located?
That depends on land availability and terrain. Closed-loops are trenched horizontally in yards adjacent to the home if the yard is large enough. Or, for smaller yards, the loops can be installed vertically using a drill rig, much like a water well installation. Here is an example of a home that uses a vertical geothermal loop.
How long will the loop pipe last?
Properly installed, these pipes will last over 50 years.
Will an earth loop affect my lawn or landscape?
No, research has proven that loops have no adverse effect on grass, trees or shrubs. Most horizontal loop installations use trenches about 3 feet wide or less. This, of course, will leave temporary bare areas that can be restored with grass seed or sod. Vertical loops require less space and result in minimal lawn damage.
I have a pond near my home. Can I put a loop in it?
Yes, if it’s deep enough and large enough. A minimum of 8-10 feet in depth at its lowest level during the year is needed for a pond to be useable. Generally, a minimum of 1/2-acre pond is required to provide adequate surface area for heat transfer.
Pond/Lake Geothermal Loop
What is an open-loop system?
The term “open loop” is commonly used to describe a geothermal heat pump system that uses groundwater from a conventional well as a heat source in winter and a heat sink in summer. The groundwater is passed through a secondary heat exchanger that is connected to the heat pump, and then is discharged into a pond, creek, stream, or well.
The secondary heat exchanger is typically constructed of titanium or stainless steel and is used to avoid corrosion and possibly shortened life of the geothermal heat pump.
In some cases, the groundwater may be of sufficient quality for direct connection to the geothermal heat pump, this must be determined by a professional water testing facility who can evaluate and compare the water to the ClimateMaster Water Quality Standards Table.
If an existing well can be used the installation cost of a geothermal system can be reduced since the cost of drilling, trenching, and ground loop pipe is eliminated.
Example of an open-loop geothermal system
Can a geothermal heat pump also heat water for my home?
Yes, using a hot water generator (HWG), some types of geothermal heat pumps can save you up to 50% on your water-heating bill by pre-heating tank water. The HWG is a factory-installed option.
Can a geothermal heat pump be added to my fossil fuel (gas, oil, propane) furnace?
Split systems can easily be added to existing furnaces for those wishing to have a dual-fuel system. Use the heat pump as the main heating source and a furnace as a supplement in extremely cold weather if additional heat is needed.
I have ductwork, but will it work with this system?
In most circumstances, yes. Your installing contractor should be able to determine ductwork requirements and any minor modifications, if needed.
What does a geothermal system cost?
A geothermal system for the typical home will cost more than if you bought a conventional central air conditioning system. But you wouldn’t be comparing “apples to apples.” To get an accurate comparison of costs you need to consider the following:
Can I use a heat pump for radiant/hydronic floor heating (warm floors)?
Yes, water-to-water heat pumps heat water instead of air. The principle is the same as far as loop piping is concerned. Warm water is circulated through the floor to heat the home. Our Tranquility Water-to-Water Series of heat pumps are excellent choices to use for radiant or hydronic heating.