Posts Tagged ‘Geothermal’

Raffle Winner

Friday, March 9th, 2012

Congratulations to Elizabeth Wood of Austinburg, Ohio on winning a free humidifier installation from Apple Heating & Cooling. Ms. Wood entered the raffle we held at the Ashtabula Home Show this past weekend. The Home Show was a great success, and all of us at Apple Heating & Cooling enjoyed meeting new and current customers. There was a great interest in geothermal heating and air conditioning.

If you are looking for a great new way to keep your home cool in the summer and warm in the winter, you may want to look into geothermal heating and air conditioning. Many people are not familiar with the particulars and benefits of geothermal systems, but when you learn more about them, you may find that a geothermal home heating and cooling system is just the thing you are looking for. Geothermal is a high efficiency, eco-friendly heating and cooling option with a low cost of operation. You also receive a 10-year Worry-Free parts and labor warranty with your Apple geothermal installation. To top it off qualifying geothermal systems receive a 30% federal tax credit.

Call today to schedule a free in home evaluation and energy analysis, and receive $1,000 off a new geothermal system. Offer expires 3/31/2012

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Mayfield Village Heating Guide: Geothermal Myths

Wednesday, January 11th, 2012

As with any misunderstood technology, there are a lot of myths and misconceptions concerning geothermal heat pumps and how well they work. While these types of systems certainly have their limitations, the same is true of just about any type of heating and cooling system you could have installed in your Mayfield Village home. But if you are really trying to evaluate whether or not a geothermal heating system is right for your home, you need to know exactly what is true about these systems and what is just not true.

For instance, there is a widely held belief that geothermal energy is not a viable heating option in areas with harsh winters. The fact is, though, that even when the air temperature outside is below freezing, the temperature several feet below ground can be as high as 55°F.

With a ground temperature like that, a geothermal heat pump will have no trouble extracting enough heat to keep your home comfortable even when it is well below freezing outside. And even when the ground freezes, the frost usually only extends three or four feet below the surface. Since the pipes for your geothermal heat pump will be at least four feet down, the frost should not affect them at all.

Also, it is common for people to assume that geothermal heat pumps will always need to have a regular heating system in place to serve as a backup. In fact, a geothermal heat pump is quite capable of providing consistent and adequate heating for your entire house as long as it is properly sized and installed. Make sure you are dealing with an experienced and qualified contractor and you will have no problems along these lines.

There are also plenty of myths floating around out there that geothermal heat pumps are just too expensive to make sense as a home heating solution. The truth is that geothermal heating costs almost nothing to operate.

While it is true the geothermal systems are quite a bit more expensive to install than many of the other options, alternative heating systems will still cost a significant amount to install and you will also have to pay much more to operate them on a regular basis. With a geothermal heating system, you pay quite a bit up front, but it is a one-time cost and there will be minimal monthly heating bills after that.

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Bratenahl Heating Tip: Geothermal vs. Solar

Friday, January 6th, 2012

If you are looking for a more environmentally friendly alternative to the traditional methods for home heating in Bratenahl, you will probably consider both solar and geothermal options. Each of these relies on a great renewable resource to function and can be an excellent option depending on your specific circumstances. Of course, both geothermal and solar heating have limitations as well, so it is important to take these into account when you are evaluating your options.

A geothermal heating system works by extracting heat from the ground and transferring that to the air in your Bratenahl house. This occurs when heat is absorbed by a fluid flowing through a closed loop of pipes beneath or next to your home. The fluid then returns to your home, where the heat is extracted by a compressor and distributed throughout the house by an air handler.

This uses very little energy relative to a conventional heating system, as you only have to power the condenser and the air handler. The heat is not generated by the system but merely harvested, so total energy costs are quite low. However, the installation cost of a geothermal heating system can be many times what a conventional heating system would cost.

Solar heating relies on solar collectors to gather the heat from the sun. This heat is then passed into a system of heat pumps and heat exchangers so that it can be adequately distributed throughout your house. The installation of heat collectors, of course, is quite expensive as well, while the cost of running the system is generally low just as with the geothermal heat pump.

One advantage to opting for a solar heating system is that you can lease the equipment rather than buying it in some areas. This means that you do not have to pay the high installation costs and only pay a monthly fee to use the equipment which is usually comparable to what an average heating bill would be if you had a furnace.

But you also have to keep in mind that you need to have enough space to put up an adequate number of solar collectors to keep your house warm all winter. This often means giving up a lot of land, and if you have a lot, that is fine. But it is still something you need to take into consideration. Also, you need to make sure that the area you live in gets enough direct sunlight to make solar heating a viable option. Otherwise, you will be paying to run a backup system much of the time anyway.

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

Wednesday, November 23rd, 2011

The beauty of having a geothermal system in your Thompson 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 annual or bi-annual service calls.

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History of Geothermal Energy: Some Information From Middlefield

Friday, October 7th, 2011

Geothermal energy is nothing new – it just gets more ink because of its increasing use to naturally heat and cool buildings, leaving a smaller carbon footprint and providing for an efficient, more cost-saving method to achieve indoor comfort which you can use almost everywhere, including Middlefield.

History shows that geothermal energy dates back over 10,000 years when American-Paleo Indians used hot springs for bathing and heating, possibly even as a source for healing. And geothermal energy is not just a North American “thing” either. The oldest known hot springs spa was built in the Qin dynasty in China in the 3rd century B.C.

Romans used the water from hot springs for their public baths. Geothermal water was also used by the Romans for treating skin and eye diseases. Minerals found in hot springs water has been long believed to have healing qualities. Geothermal water was also used to heat the buildings in Pompeii. Subsequently, building heat was obtained from under floor systems.

History notes that France is home to the world’s oldest known geothermal district heating system. The system in Chaudes-Aigues has been in use since about the 14th century. And starting in 1960, France began using geothermal heating for homes in other areas. Up to 200,000 homes in France are heated by geothermal means.

History also shows geothermal energy use during the late 18th century near Pisa, Italy. Geothermal energy had been used to extract boric acid from the Larderello Fields through the use of steam. In 1904 at Lardello Fields, steam was successfully used to generate power for the first time. At the time, geothermal energy was seen as the power of the future.

In the U.S. in 1892, the first district heating system in Boise, Idaho was powered directly by geothermal energy, and was soon copied in Klamath Falls, Oregon in 1900, where geothermal water was pumped under sidewalks and roads to help prevent freezing and ice build up. In New Mexico rows of pipe were placed underground to keep soil warmer for agricultural purposes.

A deep geothermal well was used to heat greenhouses in Boise in 1926.

For the residential market, an inventor built a “downhole heat exchanger” in 1930 to heat his house. The heat pump, which was invented in 1852, was patented to draw heat from the ground in 1912. However, it was not until the 1940s that the geothermal heat pump was successfully launched. Records show that the first commercial heat pump was put into use in Portland, Oregon in 1946. The first residential open loop system was installed in 1948.

In the 1960′s, the first large scale industrial geothermal energy power plant was constructed, producing 11 megawatts of geothermal electricity. From the 1960′s to the present day organizations and governing bodies have been set up to manage, research, and develop new and improved geothermal energy sites and technologies.

Today, there are many geothermal power plants in working order in the U.S. and across the globe.

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Green Thinking for Green Thinkers

Wednesday, July 27th, 2011

There are a lot of media stories about exciting new green buildings: LEED-certified buildings, net-zero buildings, buildings made out of recycled shipping containers, homes in New Urbanist communities, even “ultra-small” homes. But a new home can be pricey. Fortunately, though, all these innovative green ideas can be applied where you live right now. In fact, going green in your existing home might even be better for the environment than building a brand-new home.

If you wish your home could be LEED-accredited, focus on energy conservation and indoor air quality in your existing home. Upgrade to a high-efficiency furnace and air conditioner and consider adding central air filtration to your heating and cooling system. Install Energy Star appliances and WaterSense plumbing fixtures. For remodeling projects, use VOC-free paints and natural materials.

If you wish you had a “net-zero” home, consider geothermal – and insulate. Geothermal systems use 70% renewable energy and protect you against spikes in oil and utility prices. To increase your energy savings still more, tighten the “thermal envelope” of your home by identifying and sealing hidden air leaks and adding insulation.

If you wish you lived in a “recycled” home, get to know your local salvage yard. Many communities have “architectural salvage” shops and recycle/reuse areas in their landfills. When you do your next home improvement project, go shopping at your landfill first. This is not only great for the environment; it’s also great for your budget. Plus, you’ll end up with a creative, unique home. (Of course, make sure that you don’t re-use items containing lead, asbestos, or other contaminants.)

If you wish you lived in a New Urbanist community, start walking and biking in your own community. Experiment with replacing some of your car trips with walking or biking trips. If you find that your community isn’t pedestrian- or bike-friendly, work with local politicians to change this. Learn about your local public transportation options to see if you can fit them into your lifestyle. If you’re in the market for a new home, make location and proximity to work and shops a primary consideration.

If an “ultra-small” home looks like fun but seems impractical as a long-term residence, consider reducing the size of your own living space. If your kids are grown, it may be time to downsize to a smaller home that uses less energy. If you’re building a new home or an addition to your current home, build only what you need. Sometimes the greenest building decision you make can be deciding to build less.

(The “Not So Big House” website (http://www.notsobig.com) is a great resource for those interested in downsizing while maintaining a high quality of life.)

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