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Geothermal Heat Pumps are Renewable and our Most Efficient HVAC Technology

The question arises from time to time in building industry blogs about whether or not geothermal heat pumps (GHPs) are a source or renewable energy. GHPs, or ground-source heat pumps, don't fit neatly into any box, but suffice it to say that their appeal is for their efficiency AND the abundant renewable energy that they provide.

GHPs use the ground as a moderate temperature heat source during the winter and a heat sink during the summer.  They draw renewable (yes, renewable) thermal energy from the ground during the winter to heat buildings, and reject heat from buildings back into the ground in summer, thus replenishing the heat drawn from the ground during the previous season.

As for efficiency, it’s a lot easier to reject heat from the building to the ground (~55°F) compared to outside air that can be in excess of 100 deg. F on a hot summer day. And in winter, it’s easier to recover heat from the ground (~55°F) compared to outside air that can be <40°F. Consider the ground as a readily available renewable storage battery for heat that thin air (in the case of standard air-to-air heat pumps) simply cannot provide.

In his “Drill, Baby Drill" article author Eric Woodroof, Ph.D. says, “GHPs reduce the kilowatt-hours required for air conditioning. When you also consider that when a utility promotes GHP applications (for example as a Demand-Side Management method), the utility will have reduced demand during peak periods, requiring less generation plants and less pollution.”

GHPs do have higher installation costs than traditional air-to-air heat pumps, because of the cost of excavation for a horizontal system or drilling vertical boreholes (not “wells”) for closed loop systems for the pipework of the ground heat exchanger. They also require expert, qualified design and installation of the ground loop to achieve their full energy efficiency and savings potential.

But that ground loop is guaranteed to last over 50 years, posting a small fraction of life cycle cost. Indeed, in many cases it is projected that the ground heat exchanger will outlive the building it serves.

Woodruff provides an excellent analysis of GHP efficiencies, citing an example of a 5-ton air-to-air heat pump, “which would move 5 x 12,000 BTU/hour, which equals 60,000 BTUs per hour. If the air-air Seasonal Energy Efficiency Ratio (SEER) is 10, that means we use ~6 kW every hour we run the air-air heat pump.  In contrast, a GHP would have a SEER of 20 during the summer, which means you would only need ~3 kW. Thus, the GHP reduces demand by ~3 kW, reducing emissions and helping the utility shave peak demand during the summer.”

“In the winter,” says Woodruff, “the SEER of the GHP drops from 20 to 13.65 (COP = 4), meaning that the unit will draw 4.4 kW to move 60,000 BTU/hour. 4.4 kW equals about 15,000 BTU/hr of input energy, with the remaining 45,000 BTU/hr coming from the earth. The total fuel/energy usage is still less than conventional sources (fossil fuels) because the GHP gets ~75% of the energy from the earth (~45,000 BTU/hr), which avoids fuel that could be going into a natural gas fired heater/boiler.”

Most people think of renewable energy as easy-to-measure electricity (kilowatts) for the grid. But GHPs produce renewable energy measured in BTUs that are consumed without the transmission grid.

In some states, renewable thermal energy (BTUs) produced by GHPs is now being recognized by governments as a compliance measure under state mandates requiring utilities to buy electricity from renewable power generators like wind and solar. Maryland and New Hampshire passed laws last spring recognizing GHPs as a renewable resource that qualifies for Renewable Energy Credits for utilities, just like wind and solar power.

Those credits are earned according to the electricity use avoided by GHPs compared to standard HVAC systems. New metering devices can measure the temperature differential (ΔT) of incoming and outflowing fluid through a GHP, then accurately count the number of BTUs produced by the earth. A simple conversion to kilowatts equals the renewable electricity equivalent production of GHPs.

Reduced energy use through the deployment of GHPs ultimately means less pollution from coal and natural-gas fired power plants.

According to Oak Ridge National Laboratory Buildings Technologies Research and Integration Director Patrick Hughes, Ph.D., “GHPs capture a distributed, thermal form of renewable energy that is available everywhere. GHPs use the only renewable energy resource that is available at every building’s point of use, on-demand, which cannot be depleted (assuming proper design of the heat exchanger) and is affordable in all 50 states.”

Regarding GHPs’ use of electricity, Hughes says, “Although GHPs consume electrical energy, they move 3 to 5 times more energy between the building and the ground than they consume while doing so.”

The distributed thermal renewable resource offered by GHPs is already at the load, unlike the vast majority of wind and solar power generation resources that require costly and difficult to site transmission lines. And with GHPs, Hughes says, “The renewable resource is available on demand, unlike wind and solar, which may or may not be available when needed.”

Given both the energy GHPs recover from the ground in winter, and its recycling of heat to the earth in the summer months, the thermal energy tapped by GHPs in indeed renewable. With proper system design and consideration of soils and other factors, GHPs have been proven to save from 40 to 70 percent on heating and cooling bills (including hot water heating).

Those numbers can only get better with new units now being manufactured that promise to deliver even more renewable energy from the earth. And collectively, GHPs offer a 24-7 / 365-days-per-year solution to intermittent renewable power production from wind and solar sources.  

GHPs can provide BOTH renewable energy AND dramatically raise the efficiency of our power grid while reducing energy consumption in buildings of all kinds in most locations around the country. 

Lead image: An installer places geothermal pipes in the ground via shutterstock.

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