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HVAC Education, Buying Tips, Geothermal

What Is Geothermal Heating and Cooling?

By Travis Baugh

A geothermal heat pump taps into the energy of the Earth to heat or cool your home. Learn more about geothermal heating and cooling in this article. 

What Is Geothermal Heating and Cooling? 

geothermal heat pump taps into the energy of the Earth to heat or cool your home. Rather than burning fuel, it extracts heat from the ground during winter and brings it indoors. To cool, the system removes heat from your home and transfers it into the ground using a series of pipes buried in your yard or sunk in a pond, or by using well water.
 
a carrier dealer discusses how goethermal heating and cooling works with a family

How Geothermal Heating and Cooling Works

1) Heat Exchange: The system consists of a heat pump unit installed inside of your home and a buried ground loop. The ground loop consists of a series of pipes buried in in your yard or sunk in a pond, or by using well water. 
2) Heat Absorption: The fluid in the ground loop absorbs heat from the earth through geothermal heat exchange. The temperature below the earth's surface remains relatively constant throughout the year. 
3) Heat Pump Operation: The heat transfer fluid carries the absorbed heat to the heat pump unit inside the home. The heat pump uses a compressor and a heat exchanger to extract and concentrate the heat. 
4) Heating Mode: During the heating mode, the heat pump transfers the heat into the home's distribution system, such as underfloor radiant heating or ductwork for forced air, providing warmth. 
5) Cooling Mode: In the cooling mode, the process is reversed. The heat pump extracts heat from the home's interior and transfers it to the fluid in the ground loop. The heat is then dissipated into the cooler earth.

What Are The Components Of A Geothermal Heating and Cooling System?

Major components of a geothermal heat pump system include:

  • Indoor unit that contains a compressor and a fan to move air through your home, with two-stage or variable-speed blowers that ensure even temperatures and the right humidity levels
  • Refrigerant that absorbs and releases the heat as it circulates through the system
  • Pipes, also called loops, that are installed underground or underwater and are filled with liquid that pulls heat from the soil or water and transfers it into your home

Geothermal Heating and Geothermal Cooling System Types

  • A horizontal loop is placed in trenches six feet underground and is used in homes with larger lot sizes with room to spread them out.
  • A vertical loop is placed in a hole running as far down as 400 feet deep and is used in homes with smaller lot sizes that may not be able to accommodate a horizontal loop.
  • A pond loop is placed in a natural body of water, 10 or more feet below the surface.
  • An open-loop system uses water from the ground, a well, or a lake as the liquid inside the pipes.

Pros and Cons Of Each Geothermal Heating and Geothermal Cooling System 

Open-loop systems are generally more efficient and cost-effective to install, as they utilize the natural heat stored in groundwater. However, they require access to an adequate supply of groundwater and may be subject to water quality regulations. 

Closed-loop systems, such as a horizontal loop or vertical loop, are more flexible in terms of location and can be used in areas where groundwater is limited or not easily accessible. Although they tend to have a higher upfront cost, closed-loop systems offer greater durability and require less maintenance.

a woman relaxes in a living room with a geothermal heating and geothermal cooling system installed

What Are The Benefits Of Geothermal Heating and Geothermal Cooling?

  • Savings. One of the primary benefits of geothermal systems is their exceptional energy efficiency. Unlike traditional heating and cooling systems that rely on burning fossil fuels, geothermal systems use the earth’s constant temperature to provide heating, cooling, and hot water. By tapping into this renewable energy source, geothermal systems can help cut operating costs up to 70 percent lower than ordinary systems.*
  • Comfort. Even temperatures throughout your home all year round.
  • Environmentally friendly. Geothermal systems are a greener alternative to conventional HVAC systems. By harnessing the earth’s natural heat, they significantly reduce greenhouse gas emissions and dependence on non-renewable energy sources. Geothermal systems also have a smaller carbon footprint, making them a more environmentally responsible choice for homeowners who prioritize sustainability.
  • Reliable. Geothermal systems are known for their exceptional reliability. Geothermal systems have fewer moving parts compared to traditional HVAC systems, reducing the risk of mechanical failures and the need for frequent repairs. 
  • Quiet. With no above-ground outdoor equipment and a fully insulated indoor cabinet, these units have quiet operation.
  • Hot water source. During operation, excess heat can be used to supplement your water heater.
  • Long-lasting. The heat pump unit has a lifespan of 20 or more years and the underground loops can have a lifespan of 25–50 years or longer.

Contact a Carrier Geothermal Heating and Cooling Dealer

Interested in Carrier geothermal heating and cooling solutions or have additional questions? Talk to your local Carrier dealer to learn more.

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*Savings calculated using Carrier LoopLink software. Comparison based on simulation in Dallas, TX. Carrier 6-ton unit vs. standing pilot propane furnace, standard air conditioner, and local fuel rates. Actual savings will vary based on configuration, weather, and local energy costs.

Frequently Asked Questions About Geothermal Heating

During winter, when outdoor temperatures drop, the heat pump extracts heat from the ground through the ground loop and transfers it to your home, maintaining a warm indoor environment. In summer, the process reverses, with the heat pump extracting heat from your home’s air and transferring it back into the earth through the ground loop, effectively cooling your home. This process is highly efficient, requiring far less energy than traditional heating and cooling systems.
While geothermal heating offers numerous advantages, such as energy efficiency and environmental friendliness, downsides include the potential for a higher initial cost than traditional HVAC split systems due to the need for drilling or trenching for ground loop installations. Additionally, not all properties are suitable for geothermal systems due to space requirements for ground loops or local geological conditions.
Geothermal heat pumps are designed to work effectively in a wide range of temperatures, for heating and cooling purposes. Below freezing temperatures do not necessarily mean geothermal systems stop working, as they can still extract heat from the ground, which remains relatively stable in temperature throughout the year. However, extreme cold conditions might reduce the efficiency of heat pumps, requiring supplementary heating methods to meet heating demands efficiently.
Learn More About Geothermal Heat Pumps