Is It Feasible To Retrofit An Existing Electric- Or Oil-Heated Building With A Geoexchange System?
Filed under geothermal F.A.Q.
Sometimes yes, sometimes no. There are several considerations when deciding if a geothermal system would be cost effective in an existing building.
exchangenergy has written an in-depth article on our blog about it. Click here to read more about what to consider when deciding on a geothermal retrofit.
Will Geothermal Work With Well Water As The Heat Source?
Filed under geothermal F.A.Q.
Yes. A geothermal system using well water will work fine.
exchangenergy has written an in-depth article on our blog about it. Click here to read more about geothermal with well water.
Are There Any Challenges With Geothermal Systems?
Filed under geothermal F.A.Q.
The first thing that comes to mind with a geoexchange system is ensuring that maintenance staff are aware of the operating differences from conventional systems. Incorrectly adjusting the control system could negatively affect geoexchange performance.
As a buyer, the biggest challenge is securing a contractor with the system design and control strategy experience to ensure that your system will meet your expectations for comfort and efficiency.
Are Geoexchange Systems Guaranteed?
Filed under geothermal F.A.Q.
The heat pumps, circulating pumps, control systems, and pipes used in a geoexchange system all carry manufacturers guarantees. However, the greatest guarantee for the efficient performance of your geoexchange system is the capability and expertise of the designer and installer. Knowledge of the geothermal resource, the handling and care of the design, and an optimized control strategy will ensure that your geoexchange system reliably performs to maximum efficiency.
What Is Some Important Information Owners And Property Managers Need To Know When Considering Ground Source Heat Pump Technology?
Filed under geothermal F.A.Q.
Q: What is some important information owners and property managers need to know when considering ground source heat pump technology?
A: The best time to plan for a geoexchange system is during the design phase of your project. Including the geoexchange engineer at this stage can mitigate design obstacles before they arise. Horizontal loop systems are more economic, but a vertical borehole system is very space efficient and can be utilized in applications where horizontal loops are ruled out due to space limitations. When possible, ocean or lake loops are very affordable and efficient.
Though the upfront costs are higher than conventional systems, geoexchange systems are an excellent investment when viewed over the life of the property and when the changes in the global energy market are considered.
Can Geothermal Systems Work As A Retrofit?
Filed under geothermal F.A.Q.
Although new construction provides an easier opportunity to install a geoexchange system, can they be installed for a retrofit project?
Geoexchange retrofits are possible, though installation costs will typically be higher than in new construction. The distribution system inside the building often provides the greatest challenge. For example, a forced air system designed for a natural gas furnace will require larger diameter ducts, or a radiant floor system designed for a natural gas boiler may require closer pipe centres. The cost of modifying these systems can be prohibitive. A site inspection by a qualified geoexchange engineer will assess the potential for a geoexchange retrofit. As fossil fuel costs continue to rise, geoexchange retrofits will become increasingly viable.
Are You Seeing Demand Growing For This Type Of Technology From ICI Sector?
Filed under geothermal F.A.Q.
Yes, the biggest growth in the geoexchange industry is in the ICI sector. Typical installations in this sector call for both heating and cooling, allowing the capital cost and operating cost benefits (described above) to be realized.
What Types Of Commercial/Institutional Buildings Are Best Suited For Geoexchange System?
Filed under geothermal F.A.Q.
Buildings with both a heating and cooling load (also called a balanced load) are best suited for geoexchange systems. This will take advantage of the capital cost benefit of having only one system for both functions, and provide a faster return on investment. (In some applications, a geoexchange system will pay for itself in as little as 4 to 6 years.) A geoexchange loop field designed for a balanced load can also be sized smaller than one for an unbalanced load, since it can function more as a “thermal battery” as opposed to a thermal source.
Used only for heating, geoexchange still provides significant operating cost advantages, increased comfort, reduced ambient noise, and all the benefits of eliminating emissions due to fossil fuel combustion.
What Is The Difference Between Geoexchange System And A Conventional HVAC System?
Filed under geothermal F.A.Q.
Geoexchange systems are different from all other HVAC systems due to their ability to store thermal energy: the ground loop essentially acts as a “thermal battery”. Heat rejected from a building during summer air conditioning is stored in the earth surrounding the ground loop, and is reclaimed during the heating season. The ability to store and reclaim thermal energy greatly increases geoexchange efficiency when compared to air source heat pumps.
Geoexchange systems don’t rely on fossil fuel combustion to produce heat. Instead the ground source heat pump simply concentrates and transfers heat that is already there. This process of moving heat uses far less energy than conventional methods.
What Are The Benefits?
Filed under geothermal F.A.Q.
Geoexchange systems provide superior comfort to building occupants because they provide a steady flow of lower temperature conditioned air or water, eliminating the surges, hot flashes and drafts associated with conventional systems.
The temperature of the ground a few feet below the Earth’s surface remains relatively stable between 10oC and 15oC. This constant “thermal reservoir” allows very efficient performance year round.
Geoexchange systems provide extraordinarily low operating costs. Approximately 75% of the energy used in geoexchange heating and cooling is renewable thermal energy from the ground – energy you already own. The remainder is clean electrical energy used to power the pumps and compressors. Dependence on utilities is reduced. Geoexchange also provides a “buffer” between your operating budget and the impact of increasing fossil fuel costs. Geoexchange systems do the work that ordinarily required three appliances: a furnace, and air conditioner, and a hot water heater. They eliminate the outdoor noise pollution and space requirements of an air source heat exchanger. Located indoors, they are extremely quiet and space efficient.
Geoexchange heat pumps are more reliable than conventional systems. Eliminating fossil fuel combustion means no thermal stresses, and equipment has a much longer life span. Geoexchange heating and cooling is an environmentally benign technology, with no emissions or exhaust. The emissions offset by even the smallest geoexchange system is equivalent to taking two cars off the road or planting an acre of trees.
