Closed-loop Systems
Most residential ground heat exchangers are either installed horizontally or vertically in the ground or submerged in a body of water such as a pond or lake. Each type of ground loop design has its own, unique advantages and disadvantages, as explained below.
Horizontal Loop Configurations
This configuration is usually the most cost effective but can only be used when adequate yard space is available and when trenches are easy to dig. To install a horizontal system, workers utilize trenchers or backhoes to dig trenches 5-8 feet below ground and then install a series of HDPE pipes that comprise the geothermal heat exchanger. They will then backfill the trench, taking care not to allow sharp rocks or debris to damage the pipes.
A common practice is to coil the pipe into a slinky shape to fit the loopfield in a smaller area. While doing this reduces the amount of land area needed, it will require installation of more pipe. When retrofitting a home with a GSHP system, a horizontal ground loop installation may 
pose more problems because landscaping will have already been completed.
However, new types of horizontal boring equipment are making it possible to retrofit geothermal heat pump systems into existing homes with minimal disturbance to lawns. Horizontal boring (directional boring, HDD) machines can even allow entire systems to be installed under existing buildings or driveways.
Vertical Loop Configuration
This configuration is ideal for homes where yard space is limited, when rock formations are very close to the surface, or retrofit applications where minimum disruption of the landscaping is desired.
To install a vertical loop, a contractor will use well-drilling equipment to bore a 5-6 inch diameter vertical hole in the ground 150-450 feet deep. Next, a single pipe loop with a U-bend at the bottom is inserted in the hole. After the pipe is inserted, the hole will be grouted, filling it from bottom to top.
The function of the grout is to ensure contact between pipe and the earth to promote heat transfer as well as to seal the hole off from any aquifers or groundwater supplies that may have been penetrated during the drilling process.
Protecting the deep earth environment with a proper grouting material is just as important as providing heat transfer between the piping system and the surrounding earth. Vertical loops are generally more expensive to install, but require less piping and less land area than horizontal loops.
Pond Loop Configuration
If a home is near a sufficiently-sized body of surface water, such as a pond or lake, this configuration may be the most economical. To install a pond loop, a contractor will simply submerge an adequately-sized piping system in the body of water.
Similar to a horizontal system, it is common practice to coil the pipe in a slinky shape to fit more pipe in a smaller area. Fluid circulates through HDPE piping in a closed system just as it does in horizontal and vertical ground loops. Experts recommend using a pond loop only if the water level never drops below six to eight feet at its lowest point to ensure sufficient heat-transfer capability.
While pond loops work very well in cooling-dominant climates, caution must be used when installing these systems in heating-dominant climates. If properly installed, pond heat exchangers will not adversely impact the surrounding aquatic system.
Header Piping for the Closed-Loop System
Each loop in a vertical, horizontal or pond loop configuration is connected to a horizontal piping system in a parallel arrangement. This horizontal piping system is referred to as header piping (supply-return piping, S-R piping). Header piping will be buried 5-6 feet underground to be brought into the home.
The purpose of the header piping is to carry the circulating fluid in the system from the loopfield to the geothermal heat pump inside the building. When header piping is brought in close proximity to water or sewer lines, insulation must be placed between them prevent the water/sewer lines from freezing.
The type of GHEX and amount of HDPE piping that is installed for a given system will depend on many factors. Some of these are: the peak heating and cooling loads of a structure, the installed capacity of the GSHP unit itself, soil conditions where the piping will be buried, local climate, and land availability.
To ensure satisfactory results, a ground heat exchanger should be installed by an IGSHPA accredited installer. This will ensure that your contractor will have all of the necessary tools and resources to install a properly-sized ground heat exchanger (GHEX).
Contact our engineering department to discuss possible options for your GSHP system and for geothermal design services.