Posts Tagged ‘Geothermal’

What’s Involved in Springfield, PA Geothermal Maintenance

Monday, March 18th, 2013

While geothermal systems are known for their effective operation and comparatively little need for maintenance, they need care like any other mechanical aspect of your home. As one of the major investments into the operation and comfort of your home, your geothermal components will work more effectively and efficiently when maintained by a professional. Because it runs all year round, routine cleaning and inspection is a great way to ensure the longevity of your heating and cooling system. Call Cool It Heating and Air Conditioning today for comprehensive geothermal maintenance in Springfield, PA.

Let’s take a look at what’s involved:

  • Outdoor unit. Like an ordinary heat pump, your geothermal requires an outdoor unit, housed in weatherized casing, containing a compressor and condenser. Inspecting and cleaning all of the mechanical components, including fans and coils, is a necessary part of maintaining its operation. Dust and debris can have adversely affect the energy efficiency of your geothermal system, and it can even damage components.
  • Indoor unit. The indoor unit, typically located in the basement, contains the evaporator and air handler components of the geothermal system. Any moving parts may require lubrication, so they are freely moving, and coils and filters should be regularly cleaned to prevent condensation buildup and airflow obstructions.
  • Circulation. Your geothermal unit requires the efficient circulation of a water-antifreeze mixture through high-density polyethylene piping. Making sure that these pipes have enough refrigerant to adequately absorb and dissipate heat is an important part of geothermal maintenance.
  • Ductwork. Like conventional heating and cooling systems, your geothermal heat pump uses an air handler to distribute heated or cooled air throughout your home by extensive ductwork. Making sure that such ductwork is clean and free of pollutants is important not only for air quality reasons, but also for energy-efficiency. Even small amounts of dust and debris in your ducts can impede airflow and cause energy loss.

Make sure that your geothermal system is well supported by professional maintenance. It will improve the effectiveness and efficiency of your system, as well as ensure that your indoor air quality is high. For comprehensive geothermal services  in Springfield, PA, call Cool It Heating and Air Conditioning today! 

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Media, PA Geothermal Guide: Components of a Geothermal System

Monday, February 25th, 2013

Geothermal heating and cooling systems are really growing in popularity. They are able to both heat your home by utilizing the moderate temperature of the ground just below the earth’s surface. One of the perks of the system is its versatility, being used in the hot and cold months. Cool It Heating & Air Conditioning provides excellent geothermal installation and repair services. If you’re interested in hearing more about geothermal energy and how it can benefit your Media, PA home, call us today.

Geothermal heating and cooling systems utilize a heat pump to transfer heat from beneath your property into your home. In the summer months the process is reversed to cool your home. This operation requires a geothermal loop system. A geothermal specialist will install pipes underground, which contain refrigerant or water. The system circulates this mixture throughout the coils underground, absorbing heat in the winter, and dispersing it in the summer. This system is connected to a cycle including an evaporator, condenser, and heat exchanger. As with a heat pump or air conditioner, the system compresses or expands the refrigerant mixture, depending upon the temperature requirements. A fan blows air across the coils containing the hot or cold refrigerant, and then the air is moved into the house. This allows your geothermal system to keep your home comfortable more efficiently all year long.

The installation process will take into consideration the topography on which your house sits, as well as the composition of the ground beneath your house. Depending on your location, these coils can be placed vertically or in a relatively shallow horizontal bed. It is a green technology and does not rely on a fossil fuel. Geothermal systems tend to use from 25% to 60% less electricity than conventional systems, require no fuel supply, such as natural gas or oil, are durable and quiet. They are an ecologically-sound solution for homeowners interested in fossil fuel alternatives. To find out if geothermal is right for your Media, PA home, contact a geothermal expert at Cool It Heating & Air Conditioning today.

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Geothermal Heating and Cooling System Benefits in Springfield, PA

Monday, December 3rd, 2012

At Cool It, we’ve been able to see the benefits of geothermal systems first hand. We’ve been installing, repairing and maintaining geothermal systems in the Springfield, PA area for many years. We thought it would be a good idea to assemble some of the main benefits that geothermal systems have to offer the Springfield, PA area.

What are Geothermal Heating and Air Conditioning Systems?

Geothermal systems are basically a kind of heat pump. Geothermal systems are known as ground source heat pumps. In cooling mode, they remove heat from your home and exhaust it into the ground. In heating mode, geothermal systems remove heat from the ground and transfer it into your home.

Free Energy

If you were to dig down about 10 feet into the ground, the temperature there would be around 55° F. It stays that temperature all year long no matter what the temperature of the air is above ground. Geothermal systems are able to take advantage of that consistent temperature. Using a series of coils buried in the ground, they move the heat from the ground into your home. In cooling mode, they move the heat from inside your home back into the ground.

Durability

Geothermal systems are known to be incredibly reliable and durable. The coils that are installed in the ground are typically made out of flexible pipe called PEX. This type of pipe is environmentally friendly, resistant to freezing and can flex during a natural disaster unlike rigid piping like copper or steel.

Reduced Energy Consumption

With a geothermal system using the free and endless energy of the earth, there is very little energy that you actually have to purchase from a utility company. In many cases, the only energy that you need to buy is the electricity to run the heat pump in your house.

In addition to being good for our planet, geothermal heat pumps represent a significant reduction in energy consumption for many homes. If you’re interested in knowing if a geothermal heat pump is a good choice for your home, then contact the experts at Cool It Heating & Air Conditioning. We offer comprehensive geothermal services in the Springfield, PA area. We would love to talk with you. Give us a call today! 

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Springfield Geothermal Contractor Guide: Installation Steps

Wednesday, March 14th, 2012

Are you interested in geothermal heating for your Springfield home? Are you considering using the natural heating and cooling energy of the Earth as a way to keep your home at a comfortable temperature?

If you are, you probably have a lot of questions, not the least of which have to do with the installation process. You may assume that it is complicated, but in most cases it is quite simple. Here is a simple summary of the steps involved in installing a geothermal system:

  1. The very first step, before any kind of installation can even be planned, is to evaluate the ground on which your home sits to be sure it can support a geothermal system. The area must be evaluated for soil and rock composition, availability of ground and surface water and availability of land.
  2. Once you have determined that your yard can handle a geothermal system, it is time to choose the type of system you need. This depends a lot on the evaluation from step 1, as well as some other factors. For one example, if you have very little land available, you may need to opt for a vertical loop configuration. For another, if you are fortunate enough to have a small body of water on your property, you can take advantage of a pond loop installation.
  3. Your contractor will dig and/or drill trenches for placement of the geothermal pipes. Try not to be nervous. They will disrupt your yard as little as possible.
  4. With the trenches prepared, pipes can be placed in accordance with the configuration you chose.
  5. Your contractor will fill the trenches back in to cover the pipes loosely. You may want to work with a landscaper to fully “re-assemble” your yard where the pipes were installed.
  6. Finally, the installation team will hook up the geothermal system to your home, make any necessary final adjustments, and you are good to go!

If you’re interested in geothermal heating for your Springfield home, consider contacting Cool It Heating & Air Conditioning today to discuss the installation process for your home.

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How Often Should I Have My Geothermal System Checked? Some Pointers from Newtown Square

Wednesday, November 23rd, 2011

The beauty of having a geothermal system in your Newtown Square home is that is requires very little maintenance. They have fewer mechanical components are than other heating systems – and most of these components are underground or inside, shielded from the outdoor elements. The underground tubing usually is guaranteed to last 25-50 years and inside components are easily accessible for servicing.

Nonetheless, keeping a geothermal system working at peak efficiency is very important. If the geothermal system loses some of its efficiency, it will cost home and building owners money in energy costs, which makes little sense since geothermal system installation costs are higher than most other heating systems.

Its key component is the ground loop system, polyethelene tubing which carries refrigerant from below the Earth’s surface and back to an above-ground compressor. When installed correctly, the buried ground loop can last for decades. A leak in the metal tubing is usually the only problem if the ground loop is not installed correctly. In the case of a leak, it may be necessary to dig up the tubing – often installed at least ten feet below the surface – and repair the leak.

Other geothermal system components include its air handling unit, compressor, and pump. These components require periodic system checks by qualified professional heating and cooling technicians. Maintenance normally requires filter changes and component lubrication, to name the most common. In some cases, building owners can perform their own filter replacement and refill of lubricants. However, it is recommended that an experienced technician perform a multiple-point inspection of the geothermal system components, usually during regularly scheduled service calls.

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How is Geothermal Different than Other Heating Systems? A Question from Brookhaven

Friday, November 11th, 2011

There are many methods to heating a building in Brookhaven. Early methods included burning coal and wood. Today, sophisticated building controls call for more efficient means of heat – and a method gaining in popularity is geothermal heating.

Many use air handling units to deliver heat – and that method has remained constant over the years. But air handling units are only designed to move air from one space to another. How that air is heated from the source is what differentiates geothermal from other energy sources.

To understand some of the differences, let’s look at the definition of geothermal heat. By definition, geothermal heating comes from its direct use of geothermal energy, which comes from below the Earth’s surface. And the Earth is known as the greatest conductor of heat. The constant, renewable temperature of the Earth (56-58 degrees on average below 10 feet) provides a heat source requiring no energy conversion, which adds to heating efficiency and ultimately, the cost to heat a building.

In order to heat a building, natural heat from the ground absorbs a colder refrigerant, which is circulated throughout the ground by a series of polyethelene tubing, which is generally positioned five to ten feet below the surface. This heat is transported via the refrigerant to a compressor inside a heat pump, where it is compressed and the lower temperatures are transformed from around 50 degrees to temperatures much higher, as high as 100 degrees of more. This hotter refrigerant is circulated through the tubing within an air handling unit, where colder return interior air absorbs the heat. The heated air is then carried to a building’s interior via fans. The refrigerant, with the heat removed, now becomes colder as is re-circulated into the ground to absorb the natural, renewable heat. In essence, the ground provides free heat.

Other methods of heating include forced air natural gas, oil, solar, propane, electric, radiant, and steam. Each heat source requires mechanical means to heat up the supply air. For example, natural gas – which is used to heat about half of all U.S. homes – is heated via a heat exchanger in a mechanical furnace, which runs on electricity. Radiant or steam heat is generated by mechanically raising the temperature of water or refrigerant via electricity. These methods differ from geothermal because the natural heat of the Earth provides the means for raising the temperature of the refrigerant used to transport heat to the air handling unit.

One drawback to using geothermal heat compared to other energy sources is the cost to bring this natural heating method into a building. The initial installation of a geothermal heating system is much higher than conventional natural gas heating – for example – because of the cost to install the tubing called a ground loop beneath the Earth’s surface. No other heat source, other than radiant heat, requires a series of tubing to deliver heat. But then again, radiant heat does not require a ductwork system to transport heated air or remove colder air. Geothermal requires a series of metals tubes to heat the refrigerant and the ductwork to move the heated air throughout the building.

On the flip side, its energy efficiency – using the Earth’s natural heat – is much greater than other heating sources resulting in lower utility costs, often fractions of the cost to use other heat sources. Energy savings could pay for the cost of installing the geothermal system over several years – another characteristic of geothermal heating.

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Components of a Geothermal Heating System: Some Information From Audubon

Friday, October 7th, 2011

A geothermal heating system has three basic components and some add-on ones as well.

Its most distinguishing feature is the ground loops. The most common is the “closed” ground loop system, which is a series of pipes that are buried underground. These pipes contain a heat transfer fluid, comprised of antifreeze and water. This fluid absorbs heat from the ground and carries it to the home. This fluid also absorbs heat from the house and sends it into the ground to keep the home cool.

Examples of closed loop systems include the horizontal closed loop, which can be used in larger parcels of land (over an acre for example). The loops are placed typically placed horizontally 6-to-10 feet below the surface. A vertical closed loop design is recommended for smaller parcels of land and loops are often buried vertically approximately 20 feet underground. Other types of ground loop designs use well water to transfer heat in an open loop configuration, or have a closed loop submerged underwater in a pond or lake.

The next component is the heat pump, which draws the fluid from the ground loop. In a heat pump, heat energy is exchanged with the ground to heat or cool the home. In the heating mode, fluid warmed from underground flows through the heat pump. A fan blows across the pipe warmed by the fluid. Because the fluid is much warmer than the air inside the heat pump, heat energy is released into the cooler air. The cool air is warmed and distributed inside the home. The process is reversed for cooling. Cool fluid in the pipe absorbs heat from the warm air inside the home. Once pumped underground, the excess heat in the fluid is absorbed by the cooler earth.

The final component is the air handling or distribution system. Here, a fan in the heat pump’s furnace blows air over a fan coil and the heated cooled air is distributed through the home’s ductwork. Some distribution systems are hydronic, where hot water is circulated through radiators or radiant floor heat tubing. This water absorbs heat from the heat pump and then distributed throughout the home.

In some homes, both a forced air and hydronic system, often referred to as a “hybrid system” work together.

Optional components include a heat pump “desuperheater,” which is used to help with domestic hot water heating. In warm weather, the desuperheater recovers some of the heat – that would otherwise be sent to the ground loop – to help produce hot water. In cold weather, some of the heat pump capacity may be diverted from space heating for the same purpose. Desuperheaters save approximately 25% on domestic water heating costs.

Another component is an auxiliary electric heater, which is built into the geothermal heat pump This auxiliary electric heat is installed to allow heating and cooling technicians to size – or resize – a home’s geothermal heat pump system to assist the system during the few coldest days of the year. Auxiliary electric heat is also an emergency backup heat source if there are any operational issues with the geothermal heat pump system.

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How Effective is Geothermal Heating? A Question From Concordville

Wednesday, October 5th, 2011

Geothermal heating is an efficient way to use the Earth’s natural resources to heat a building’s interior, including your Concordville home. But is it an effective way? The simple answer is yes.

Consider the cost of geothermal heating. Once you get past the initial installation costs of a geothermal heating system, which are higher than other conventional heating systems, its operating costs are much lower because of its use of a natural, renewable heat source – the Earth. If you plan to stay in your home for many years, a geothermal heating system will likely pay for itself because according to International Ground Source Heat Pump Association, geothermal operating efficiencies are 50-70% higher than other heating systems, which represents a substantial lowering of energy costs.

And according to a leading electric utility company, the cost of electricity for operating a geothermal heat pump is lower than any other heating system which includes natural gas, propane, and oil.

Beyond lower energy costs, geothermal heating leaves a smaller carbon footprint than other heating systems. According to the U.S. Environmental Protection Agency, carbon dioxide (CO2) emissions from the average U.S. home is 17%, most of which comes from burning fossil fuels for electricity. Geothermal uses natural heat from the ground and therefore uses 30-60% less energy than more conventional heating and cooling systems. Using less energy equals less carbon dioxide production.

A geothermal heating system is only as effective as the equipment used to deliver it throughout the building. The most common delivery method is through a ground source heat pump. This pump pulls the heat from the earth and distributes it. When properly installed and maintained, a ground source heat pump can last 15-20 years and provide an excellent source for heating – and cooling.

The components of a geothermal system also include a compressor, air handling unit, and duct system. When all are installed and maintained correctly, a geothermal heating system will be just as effective in heating a building’s interior as any other heating system. Just be sure you hire a qualified heating and cooling professional to install and service your geothermal heating system.

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Open vs. Closed Loop Systems in Geothermal: A Guide From Concordville

Friday, August 26th, 2011

Even people who are somewhat familiar with geothermal heating systems may not be aware that there are actually two types – open and closed loop systems. The difference, of course, is that the closed loop systems make use of a completely sealed loop of pipe filled with water, antifreeze or some combination of these that cycles through the pipe absorbing heat and transferring it to your Concordville home.

Open loop systems, on the other hand, are linked to a well casting and draw water from there to circulate throughout the system as a heat source. Particularly if you already have an appropriate well casting in place, you can often save a lot on your installation costs by putting in an open loop system rather than a closed loop.

If you do not already have a well, however, the installation of an open loop system might still be cheaper but not by as much. Also, the costs of operation after the initial installation are pretty comparable, so the relative costs associated with operating one type of system or the other should not weigh to heavily on your decision.

In fact, the best way to decide which type of geothermal heating system is right for you is to talk to an experienced contractor about your particular situation. They will be able to tell you exactly what the installation of each type of system will entail in your specific case and make informed recommendations about what type of system will work best for you.

No matter what type of geothermal heating system you do go with, though, you will be getting an excellent and inexpensive home comfort solution that will keep your indoor temperature at the right level all year round. That is because geothermal heat pumps, just like air source heat pumps, can be reversed during the warmer summer months to actually remove heat from your home. That way, you can stay cool in the summer and warm in the winter without having to pay for heating or air conditioning. If you need more information about how geothermal heating and cooling works, contact your local professional.

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Federal Energy Efficiency Rebates Explained: A Guide From Broomall

Wednesday, August 17th, 2011

You’ve probably seen the advertisements and heard the sales pitches all over Broomall. Upgrade your furnace, air conditioner, water heater, or insulation and receive a federal rebate on your taxes for a percentage of the installation cost. The government is seriously invested in improving the energy efficiency of the country, cutting electric bills and helping people stay comfortable. Here’s a quick look at some of those rebates and how you can tap into them.

Energy Efficiency Credits

There is a standard tax credit of 10% of the cost up to $500 or a specific amount between $50 and $300 for any upgrade made to your existing home for heating, ventilation, air conditioning, insulation, roofs, or water heaters. These upgrades must be made on an existing home in which you currently live – rentals and new construction homes are not eligible.

Green Energy Credits

Even better credits are available if you plan on installing a geothermal heat pump, wind turbine or solar system – either PV panels or solar heating. The tax credit here is 30% of the cost with no upper limit. This applies to any existing or new homes and can be applied to both primary and secondary residences.

Are the Tax Credits Worth It?

The big question is whether these credits are worth the investment in a brand new system? For the most part, it depends on your particular situation. If you have a 30 year old furnace and are planning on an upgrade anyways, why not take advantage of a nice rebate and get a more energy efficient system to go with it? However, if you just replaced your furnace three years ago and it works very well with a high energy efficiency rating, it might not be worth the investment.

Learn More

The Energy Star program run by the EPA contains detailed breakdowns of the 2011 tax credits, including what systems are eligible and how to go about claiming them on next year’s taxes. Learn more by visiting their official page.

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