Tennessee Valley Authority
Geothermal Heat Pumps
Interest in geothermal heat pumps in the Tennessee Valley has been increasing steadily in the past few years and it is no mystery why. Word of the cost savings that are realized when these units are installed is getting around, and many businesses and residences want to get in on the action.
Check out the information and resources currently available on geothermal heatpumps, and check back frequently for information updates.
Frequently asked questions:
How do geothermal heat pumps work?
Have there been studies done that can aid in the design of a system?
What advantages do geothermal heat pump systems offer?
What does it cost to install a geothermal heat pump system?
What if there is an underground leak in the system?
What type of assistance do TVA and local power companies offer businesses
and institutions that are interested in geothermal systems?
Whom can I contact for more information?
How do geothermal heat pumps work?
Underneath the frost line, the ground stays at a constant temperature of about 57 degrees Fahrenheit. That happens to be an extremely efficient operating temperature for heat pumps. Geothermal heat pump systems circulate water between an underground water loop, called an earth heat exchanger, and water-to-air heat pumps located throughout a large building.
The earth heat exchanger is most often a network of high-density polyethylene piping buried in vertical boreholes 150 to 300 feet deep. Each of the heat pumps in the building is connected to the circulating water loop. The temperature is controlled independently at the individual heat pumps located in rooms throughout the building.
The constant temperature of the earth heats or cools the circulating water loop as needed to balance the building’s year-round heating-and-cooling requirements. If your room needs heat, you turn up the thermostat and heat is pumped from the water loop into the room. If your room needs air conditioning, you turn down the thermostat and excess heat is pumped out of the room into the water loop.
Have there been studies done that can aid in the design of a system?
TVA has done much work in developing software and design procedures to properly size geothermal units based on building loads and other factors. One of those factors is the thermal conductivity (TC) of the earth. TVA has completed a study that documents the TC testing done in the Tennessee Valley and overlays the sites on a geology map in order to assist the design engineer in the preliminary system design. The results of that study can be viewed here.
What advantages do geothermal heat pump systems offer?
- A 25 to 40 percent reduction in heating and cooling costs
- Standard, simple controls
- No need for a highly specialized chiller technician or boiler operator
- Highly durable piping (the life expectancy is between 30 and 50 years)
- No high-maintenance, freezing-prone cooling tower
- No boiler to clean or maintain
- No air conditioning equipment on roof to cause leaks
- No harmful chemicals
- No danger of fire, asphyxiation, or explosion from coal, gas, or oil
- Nothing outside to vandalize or steal
- No central system to fail or shut down the entire building.
What does it cost to install a geothermal heat pump system?
Costs vary from project to project. Installation of the system at Daniel Boone High School, a 160,000-square-foot facility in Washington County, Tennessee, was completed in April 1996 at a cost of $551,000. Although the installation costs for geothermal systems can be higher than for other less-efficient systems, the cost is rapidly offset by substantially lower utility bills. The Daniel Boone system should pay for itself in a little more than five years.
What if there is an underground leak in the system?
Leaks are rare, but the piping system is designed to make it easy to find and repair a leak. Pipes can be grouped in clusters of 20, with each cluster having its own valve. Even if a leak occurs, the system will continue to run while one of the clusters is closed off from the system for repairs.
What type of assistance do TVA and local power companies offer businesses and institutions that are interested in geothermal systems?
There is funding available through TVA and your local power company for:
- Site-specific feasibility studies. Prepared by an independent engineering firm, these studies compare various types of space-conditioning systems in terms of initial costs, annual energy and maintenance costs, and life-cycle costs.
- Drilling test bores. This ensures that your site is suitable for geothermal-loop field piping.
- Soil thermal-conductivity testing. This assesses the capacity of the ground at your site to transfer energy to and from the geothermal-loop field piping.
In addition, we can arrange:
- Technical assistance for your design engineer
- A credit on your power bill if you meet certain eligibility requirements
- Leasing options for your geothermal system.
Whom can I contact for more information?
For more information on geothermal heat pumps and other heating and cooling systems, contact your local power distributor or TVA Industrial and Large Commercial Products and Services at 615-232-6814.
“This system is extremely simple. After 20 years of maintenance experience, I know what it is to take care of a building. This is the best thing I’ve ever seen.”
“Geothermal technology is an excellent heating-and-cooling option for owners to consider when seeking a reliable system that provides low annual operation and maintenance cost. As a matter of fact, based on actual utility bills, the savings of our projects were higher than we expected.”
“I’m completely sold. The difference in the utility bills blows my mind. It’s just unreal. The payback period is going to be less than three years.”