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Geothermal:
(Click on the links
below to expand and see a group of questions that relate to each group.
Click again to collapse group.)
What is a Geothermal Heat Pump, and How Does it Work?
- Q: What is a geothermal heat pump?
A: A geothermal or “ground-source” heat pump is an
electrically-powered device that uses the natural heat storage
ability of the earth and/or the earth’s groundwater to heat and cool
your home or business.
Q: How does it work?
A: Like any type of heat pump, it simply moves heat energy from one
place to another. Your refrigerator works using the same scientific
principle. By using refrigeration, the geothermal heat pump removes
heat energy stored in the earth and/or the earth’s groundwater and
transfers it to the home.
Q: How is heat transferred between the earth and the home?
A: The earth has the ability to absorb and store heat energy. To use
that stored energy, heat is extracted from the earth through a
liquid medium (water or an antifreeze solution) and is pumped to the
heat pump heat exchanger. There, the heat is used to heat your home.
In summer the process is reversed and indoor heat is extracted from
your home and transferred to the earth through the liquid.
Q: You mentioned heating and cooling. Does it do both?
A: One of the things that makes a heat pump so versatile is its
ability to be a heating and cooling system in one. You can change
from one mode to another with a simple flick of a switch on your
indoor thermostat. Plus, a geothermal heat pump can assist in
heating hot water year-round.
Q: What type of loops are available?
A: There are two main loops: open and closed.
Q: Does the underground pipe system really work?
A: The buried pipe, or “ground loop”, is the biggest technical
advancement in heat pump technology to date. The ideas to bury pipe
in the ground to gather heat energy began in the 1940’s. But it’s
only been in the last twenty-five years that new heat pump designs
and improved pipe materials have been combined to make geothermal
heat pumps the most efficient heating and cooling systems available.
- Geothermal Heat Pumps: Closed-Loop Systems
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Q: What is a closed-loop system?
A: The term “closed-loop” is used to describe a geothermal heat pump system that uses a continuous loop of special buried plastic pipe as
a heat exchanger. The pipe is connected to the indoor heat pump to form a sealed, underground loop through which water or an antifreeze
solution (depending on where you live) is circulated. Unlike an open-loop system that consumes water from a well, a closed-loop
system re-circulates its heat transferring solution in pressurized pipe.
Q: Where can this loop be located?
A: That depends on land availability and terrain. Closed-loops are trenched horizontally in yards adjacent to the home if the yard is
large enough. Or, for smaller yards, the loops can be installed vertically using a drill rig, much like a water well installation.
Q: How deep and long will my horizontal trenches be?
A: Trenches are normally four to six feet deep. One of the
advantages of a horizontal loop system is being able to lay the trenches according to the shape of the land. As a rule of thumb, 125
– 300 feet of trench are required per ton of heat pump capacity.
Q: What if I don’t have enough room for a horizontal loop?
A: Closed loop systems can also be vertical. Holes are bored to
about 150 – 300 feet per ton of heat pump capacity. U-shaped loops of pipe are inserted in the holes. The holes are then back-filled
with a sealing solution (grouting material).
Q: How long will the loop pipe last?
A: Closed-loop systems should only
be installed using the appropriate high-density polyethylene pipe. Properly installed, these pipes will last over 50 years. They are
inert to chemicals normally found in soil and have good heat conducting properties. PVC pipe should not be used under any circumstances.
Q: Will an earth loop affect my lawn or landscape?
A: No. Research has proven that loops have no adverse effect on
grass, trees, or shrubs. Most horizontal loop installations use trenches about 3 feet or less wide. This, of course, will leave
temporary bare areas that can be restored with grass seed or sod. Vertical loops require little space and result in minimal lawn
damage.
Q: If the loop falls below freezing, will it hurt the system?
A: No. The antifreeze solution used in loops that operate at low
temperatures will keep it from freezing down to about 15 deg. Fahrenheit fluid temperature. In the U.S. three types of antifreeze
solution are acceptable: propylene glycol, methyl alcohol, and ethyl alcohol. Some states may require one type over another.
Q: Can I install an earth loop myself?
A: It’s not recommended. In addition to thermal fusion of the pipe,
good pipe-to-soil contact is very important for successful loop operation. Nonprofessional installations may result in less than
optimum heat pump performance.
Q: I have a pond near my home. Can I put a loop in it?
A: Yes, if it’s deep enough and large enough. A minimum of 8 – 10
feet in depth at its lowest level during the year is needed for a pond to be considered. In pond loops, polyethylene pipe must be
used. Generally, a minimum of ½ acre pond is required to provide adequate surface area for heat transfer.
- Geothermal Heat Pumps: Open-Loop Systems
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Q: What is an open-loop system?
A: The term “Open-Loop” is commonly used to describe a geothermal
heat pump system that uses groundwater from a conventional well as a heat source in winter and a heat sink in summer. The groundwater is
pumped through the heat pump where heat is extracted (in winter) or rejected (in summer), then the water is disposed of in an
appropriate manner. Since groundwater is a relatively constant temperature year-round, it is an excellent heat source/heat sink.
Q: What do I do with the discharge water?
A: There are a number of ways to dispose of water after it has
passed through the heat pump. The open discharge method is the easiest and least expensive. Open discharge simply involves
releasing the water into a stream, river, lake, pond, ditch or drainage tile. Obviously, one of these alternatives must be readily
available and must possess the capacity to accept the amount of ground water used by the heat pump before open discharge is
feasible. A second means of water discharge is the return well. A return well is a second well bore that returns the water to the
ground aquifer. A return well must have enough capacity to dispose of the water passed through the heat pump. A new return well should
be installed by a qualified well driller. Likewise, a professional should test the capacity of an existing well before it is used as a
return.
Q: How much groundwater does an open-loop system need?
A: Geothermal heat pumps used in open-loop systems need differing
amounts of water depending on the size of the unit. The water requirement of a specific model is usually expressed in gallons per
minute and is listed in the specifications for that unit. Generally, the average system will use 6 – 10 G.P.M. while operating. An
extremely cold day might result in a usage of 6,000 – 10,000 gallons of water. Your well and pump combination should be large enough to
supply the water needed by the heat pump in addition to your domestic water requirements. You will probably need to enlarge your
pressure tank or modify your plumbing to supply adequate water to the heat pump.
Q: What problems can be caused by poor water quality?
A: Poor water quality can cause serious problems in open-loop
systems. Your water should be tested for hardness, acidity and iron content before a heat pump is installed. Mineral deposits can build
up inside the heat pump’s heat exchanger. Sometimes a periodic cleaning with a mild acid solution is all that’s needed to remove
the build-up. Impurities, particularly iron, can eventually clog a return well. If your water has a high iron content you should be
sure that the discharge water is not aerated before it’s injected into a return well.
Q: Does an open-loop system cause environmental damage?
A: No. They are pollution free. The heat pump merely removes heat
from or adds heat to the water. No pollutants are added whatsoever. The only change in the water returned to the environment is a slight
increase or decrease in temperature.
- Geothermal Heat Pumps: Parts of the System
- Q: What are the components of a geothermal heat pump system?
A: The three main parts are the heat pump unit, the liquid heat
exchange medium (open or closed loop), and the air delivery system
(ductwork).
Q: Are all geothermal heat pumps alike?
A: No. There are different kinds of geothermal heat pumps designed
for specific applications. Many geothermal heat pumps, for example, are intended for use only with higher temperature ground water
encountered in open-loop systems. Others will operate at entering water temperatures as low as 20 degrees Fahrenheit which is required
for closed-loop systems. Geothermal heat pumps can also differ in the way they are designed. Self-contained units combine the blower,
compressor, water heat exchanger and air coil in a single cabinet. Split systems allow the coil to be added to a forced-air furnace and
utilize the existing blower.
Q: Can a geothermal heat pump also heat water for my home?
A: Yes. Using what’s called a
Hot Water Generator (HWG), some types of geothermal heat pumps can save you up to 50 percent on your water
heating bill by pre-heating tank water. The HWG is a factory-installed option.
Q: Is a geothermal heat pump difficult to install?
A: Most units are easy to install, especially when they are
replacing another forced-air system. They can be installed in areas unsuitable for fossil fuel furnaces because there is no combustion,
then no need to vent exhaust gases. Ductwork must be installed in homes that don’t have an existing air distribution system. The
difficulty of installing ductwork will vary.
Q: Can a geothermal heat pump be added to my fossil fuel (gas, oil, propane) furnace?
A: Split systems can easily be added
to existing furnaces for those wishing to have a dual-fuel system. Use the heat pump as the main
heating source and a furnace as a supplement in extremely cold weather if additional heat is needed.
Q: I have ductwork, but will it work with this system?
A: In all probability, yes. We can determine ductwork requirements
and any minor modifications, if needed.
Q: Should I buy a heat pump large enough to heat my home with no
supplemental heat?
A: We can provide a heating and cooling load calculation (Heat Loss/Heat Gain) to guide your equipment
selection. Geothermal heat pumps are sized to meet all your cooling requirements. Depending on
your heating needs, a geothermal heat pump will supply 80 – 100 percent of your designed heating load. Sizing the heat pump to
handle your entire heating needs may result in slightly lower heating costs, but the savings may not offset the added cost of the
larger heat pump unit. Also, some oversized units can cause dehumidification problems during the cooling mode, resulting in a
loss of summer comfort.
- Geothermal Heat Pumps: What Are the Major Benefits?
- Q: How efficient is a geothermal heat pump?
A: Geothermal heat pumps
are 3.5 – 5 times as efficient as the most efficient fossil fuel furnace. Instead of burning a combustible fuel to make heat,
they simply move heat that already exists. By doing so, they provide 3.5 – 5 units of energy for every unit used to power the
heat-pump system.
Q: What does a system like this cost?
A: A system for the typical home will cost more than if you bought a separate
forced-air furnace and central air conditioning system. But you wouldn’t be comparing “apples to apples”. To get an accurate
comparison of costs you need to consider the following:
- Payback, or how long it takes to recover the difference in costs
between the two systems using energy savings. Payback for most
geothermal heat pump systems runs three to five years.
- Energy efficiency of the two systems. To get an accurate picture,
make sure efficiency claims are substantiated. Your lifestyle and
how well your home is insulated affect how economical a system will
be.
- Total operating savings from heating, cooling and domestic hot
water must be combined to get an accurate picture of total energy
savings.
- Energy costs and availability, both present and future.
- Maintenance costs and system reliability.
- System lifespan.
Q. What about comfort?
A: In winter, a geothermal heat pump system moves warm air (90 – 105
deg. F) throughout your home via a standard duct network. Typically, a very even comfort level is found throughout the home. This is
because the warm air is moved in slightly higher volumes and, therefore, saturates the home with warmth more evenly. This helps
even out hot or cold spots and eliminates the hot air blasts common with fossil fuel furnaces. In summer, cool, dehumified air is
dispersed through the same duct network.
Q: Can I get a tax credit for installing this system?
A: It depends on where you live. Some states do have tax credits for
installing geothermal systems. The federal government also offers tax credits and rebates in some cases.
Q: Is the efficiency rating actual or just a manufacturer’s average?
A: All types of heating and cooling systems have a rated efficiency.
Fossil fuel furnaces have a percentage efficiency rating. Natural gas, propane, and fuel oil furnaces have efficiency ratings based on
laboratory conditions. To get an accurate installed efficiency rating, factors such as flue gas heat losses, cycling losses caused
by oversizing, blower fan electrical usage, etc., must be included. Air conditioners are normally rated in SEER (Seasonal Energy
Efficiency Ratio). SEER and EER (Energy Efficiency Ration) cannot be directly compared without the use of software.
Geothermal heat pumps,
as well as all other types of heat pumps, have efficiencies rated according to their Coefficient or Performance or COP for heating and EER
for cooling. It’s a scientific way of determining how much energy the system produces
versus how much it uses. Most geothermal heat pumps systems have COPs of 3.5 – 5.0. That means for every one unit of energy used to
power the system, 3.5 to 5 units are supplied as heat. Whereas a fossil fuel furnace may be 80-90 percent efficient, a geothermal
heat pump is about 450 percent efficient.
Q: How long is the payback period for your ground-source heat pump system?
A: To figure this accurately, you must know how much per year you’ll
save in energy costs with a ground-source system, and the difference between it and a traditional heating system and central air
conditioner. As an example: if you’ll save $700 per year with a ground-source system and the cost difference is $2,000, your payback
would be less than three years.
Q: Can I use a geothermal heat pump for radiant floor heating (warm floors)?
A: Yes.
Water-to-Water heat pumps heat water instead of air. The principle is the same as far as loop piping is concerned. Warm water
is circulated through the floor to heat the home.
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