What Is Geothermal Heating?

November 16th, 2011

Having a geothermal heating system installed in your Hubbard home means that you will actually be able to heat your home with heat extracted from the ground. If this sounds a bit preposterous to you, you are certainly not alone. But this type of home heating does actually work and the technology is not actually that much different from what is used in a standard heat pump system.

Regular heat pumps are able to remove heat from the outdoor air and transfer it into your house to maintain a comfortable temperature in the winter. You may think that there is no heat in the outdoor air in the winter, but that is not actually the case.

Air contains a substantial amount of heat even at very cold temperatures, and heat pumps are able to work quite well, particularly when the outdoor temperature is above freezing. Conveniently, the same process used to heat your house in the winter can be reversed in the summer to extract heat from the indoor air, providing you with a year round home comfort solution.

Geothermal heating works in much the same way, except that geothermal heat pumps extract heat from the ground rather than the air. In order to accomplish this, a loop of pipes is installed in the ground near your house and your geothermal heating system will pump a liquid, generally either antifreeze or water, through those pipes.

As it passes through the pipes, the liquid will absorb heat from the ground and carry it back to a heat exchanger within your house. At that point, the heat from the liquid will be released into air, which is then blown throughout your house.

And just as conventional heat pumps can cool your house in the summer by removing heat and pumping it outside, so too can geothermal heating systems. They do this simply by letting the liquid flowing through the pipes absorb the heat from inside air and then release it into the ground as it travels through the pipe loop below your house.

Because the ground is never as cold in the winter or as hot in the summer as the air, geothermal heat pumps are actually able to work effectively in more extreme conditions than many traditional heat pumps. However, because they require an entire system of pipes to be installed underground, they can be quite a bit more expensive initially as well.

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HVAC Maintenance the Whole Family Should Know

November 14th, 2011

If you think the most important thing a heating and cooling (HVAC) system can do is to provide an comfortable environment in your Cornelius home, you are right. But there is another thing an HVAC system does that is very important and it affects your entire family. It provides a safe indoor environment, too.

Besides warmth in the winter, a finely-tuned HVAC system can clean and filter the air you breathe. That’s important to people who suffer from allergies and is especially important for minimizing the spread of germs that cause colds and the flu. The key phrase in this paragraph is finely-tuned. If your HVAC system is not working correctly – out of tune – it can cost you a great deal in monthly utility bills and can be harmful to your health.

It is important for you and your family members to understand the basics of HVAC system maintenance so you can all understand the symptoms of improper maintenance and its consequences. For example, if anyone in your home is suffering from flu-like symptoms or are constantly drowsy or listless, they may be suffering from the a silent killer: poisonous carbon monoxide gas. This gas is formed during incomplete combustion of fossil oils like natural or propane gas. A malfunctioning furnace can emit carbon monoxide gases and you may never even realize it, until it is too late. Long-term exposure to the gas can cause brain damage and/or chronic sleepiness. It some cases, it can even cause death.

You may be able to diagnose the problem, but you aren’t qualified to test and repair a furnace that is creating deadly carbon monoxide gas. Your best bet is to call a qualified HVAC contractor who can diagnose the furnace and offer repair or replacement suggestions. But there are things you can do to prevent the build-up of carbon monoxide gas.

Check all exhaust vents, like chimneys and flues for any blockages. A blocked or partially blocked vent can cause the build-up of carbon monoxide gas. And never, EVER, use a gas or propane powered heater in an unvented area of your home. These types of heaters create various levels of carbon monoxide gas that needs to be circulated out of each room and replaced with clean, fresh air. So, your family can actively ensure that there is no debris, bird’s nests, animals, leaves, or snow in the ventilation system.

You can also “help” your HVAC system by keeping vents clean by vacuuming dirty vent grilles and, in general, keeping the home clean. The cleaner the home, the easier it is for your furnace to do its job and the easier it will be for you and your family will breathe. These are a few easy maintenance tips will keep you and your family warm – and safe – this fall and winter.

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Common Heat Pump Problems

November 11th, 2011

Heat pumps are great pieces of machinery to have in your Aurora home, but they are not perfect. They come with their own problems and issues. Usually these can be fixed pretty easily, but it’s good to know what you are looking for.

Below are some common problems encountered by heat pump owners, along with some brief troubleshooting and repair advice. However, for any serious repair job, it is recommended that you call in a professional to fix the problem. This is to ensure the best performance of your heat pump, as well as for your own safety.

  1. No Heat – Obviously, this is a problem. A heat pump should do two things—heat and cool. If it’s not heating at all, something is wrong. Sometimes, this is just a matter of the power supply being interrupted. Press the “Reset” button on the power supply. If that does not fix it, it could be that the power supply has failed or the motor is overloaded.
  2. Incorrect Temperature – For example, you set the thermostat at 72 degrees, but even after several hours, the temperature won’t get over 70 degrees. This can be a problem with the sensor in the thermostat or with the heat pump itself. However, it could also just be the result of very cold temperatures outside. Heat pumps have trouble keeping up when the weather is consistently below 30 degrees Fahrenheit or so, so it may just need help in the form of a supplemental heat supply.
  3. It’s Noisy – Heat pumps are generally designed to run very quietly, so if you notice a lot of noise, there is probably something going on. Common culprits for this type of issue include loose connections, like screws, nuts and bolts. Check for any loose fittings on the heat pump. Also, make sure the contractor who does your annual heat pump inspection tightens these fittings as part of his maintenance routine.
  4. Frozen – This can be indicative of a few underlying problems, but the most common is dirt in the air filter. When filters get clogged, the heat pump can get frosted, ultimately leading to freezing. Check the air filter and make sure to change all air filters regularly.

Heat pumps can experience other issues, but these are some of the more common ones. Generally, though, heat pumps are pretty headache-free machines. Be sure to call a professional repair person is you experience any issues with your heat pump.

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Components of a Geothermal Heating System

November 9th, 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 your Estacada 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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Should I get a space heater or upgrade my heating system?

November 7th, 2011

If your heating system isn’t really cutting it in your Molalla home anymore, it may be time to take a step back and consider what your options are. After all, upgrading to an entirely new heating system is a big investment and a large project that will likely disrupt your life at least for a short period of time. However, under certain circumstances it’s the best alternative out there.

One option to consider when you’re unhappy with your home heating situation is supplementing your central heating system with space heaters. These are generally inexpensive and can be placed virtually anywhere in your house or taken with you from one room to another.

Especially if there is a small part of your home that your heating system just doesn’t seem to reach or that you want to keep a bit warmer than the rest of the house, space heaters can be an excellent option. They’re small, safe and portable and can easily keep a smaller portion of your home or room cozy and warm.

However, you’ll have to take into account the operating costs of a space heater as well as the initial investment when you’re trying to evaluate the overall cost effectiveness of this option. Most space heaters run on electricity, which often costs considerably more than oil or natural gas. If your home heating system runs on electricity anyway, this might not be so much of a factor. But if you have an oil or gas furnace, you could wind up paying significantly more to run space heaters as supplemental heat over time.

Also, it’s worth considering that new home heating systems are likely much more energy efficient than the system you currently have in place. Although the initial installation cost can be pretty substantial, you’ll wind up saving a very large amount on your monthly heating bills by upgrading to a newer model.

Plus, you’ll be getting a system that should be able to satisfactorily heat your home without the need for space heaters or other supplemental heat sources. This translates into a pretty hefty savings over time and that’s something you’ll certainly have to take into consideration when you’re evaluating your options.

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Make Your Heating System More Energy Efficient

November 4th, 2011

Energy efficiency is what you want when it comes to heating your Fairview home. You want a furnace that provides the greatest degree of accurate indoor comfort while at the same time operating at peak efficiency to reduce energy usage and lower utility bills. That’s seems like a lot to ask of a simple mechanical system but you should expect it out of the furnace in your basement, attic, or mechanical room.

It is especially important today as energy costs have steadily increased, including electricity, natural and propane gas, and oil. The best way to combat rising prices is to have a furnace that uses less energy. It is a simple statement but one that bears repeating: higher efficiency equals lower operating costs.

Here are some ways to make your heating system more energy efficient:

  1. Clean or replace furnace filters on a regular basis. A dirty or clogged filter will make your furnace work harder and become much less energy efficient. Monthly or quarterly cleaning or replacements are easy to do and will result greater operating efficiencies.
  2. Inspect your home’s ventilation system for accumulation of dirt, dust, or debris. Have you recently added new carpeting? Do your pets shed? Is there a large number of people living in your home? If you answered yes to any of these questions you may need to inspect your ventilation system. You may need to remove the ventilation grilles to take a closer look. Wiping down the inside of your duct work or vacuuming the duct work with a hose attachment will often do the trick. You can also schedule a duct cleaning with a local professional duct cleaning contractor.
  3. Remove obstructions from around vents and grilles. You need a clean path for air to flow into and out of rooms. Restricted airflow makes your furnace work harder and become less energy efficient.
  4. Consider an upgrade to a two-speed or variable speed furnace. Most older furnaces operated on one speed, which cycled on and off and consumed a lot of energy. Today’s furnaces operate at lower speeds, consuming less energy and often remaining on to keep a steady airflow and prevent constant on and off cycling. These newer furnaces are much more energy efficient and cost less to operate.
  5. Adhere to a regular schedule of planned furnace maintenance. If you don’t clean and inspect your furnace on a regular basis, schedule service calls with a local qualified heating contractor. Your contractor will likely have a service agreement plan to fit your budget, which allows for annual inspections, priority emergency service calls, and discounts on parts and services.

Besides saving on energy costs, your efficient furnace will leave a smaller “carbon footprint.” Your efficient furnace will exhaust less carbon dioxide into the atmosphere and maintain a more “green” profile. And being ecologically friendly can be just as important as saving money.

You can be assured that an energy efficient heating system will keep more money in your pocket this fall and winter.

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Plants & Indoor Air Quality

November 2nd, 2011

In our Molalla elementary school, we were taught that plants are the “lungs of the Earth.” They remove carbon dioxide from the air and release oxygen, which is great because it is the exact opposite of our respiratory process. They also clean the air in the process, like natural air pollution scrubbers, improving the quality of the air around them.

Given this, it’s not surprising that people have sought to harness the respiratory power of plants to improve air quality in their homes. One study by the National Aeronautics and Space Administration (NASA) in the 1980s even identified the best plants for improving indoor air quality.

This seems like great news for people who suffer from asthma or allergies, or who just want a natural way to purify the air in their homes. However, plants are not without their drawbacks. It is not a simple as to just bring a plant into the home. A plant is really an entire ecosystem, with many other organisms latched on for dear life. There are bacteria in the soil, for one, and there may be bugs or fungi in the soil or on the plant that you can’t even see.

Most of these are harmless, but not always. The fungus can be a problem, for example, if the spores get into the air. This can make allergies and asthma worse, not better.

That doesn’t mean you have to toss out that nice spider plant or Boston fern in the garbage, however. After all, it is probably doing a great job of filtering out some inorganic pollutants, it’s increasing the oxygen concentration of the room and it looks nice. Instead of getting rid of it, just give it a partner.

Adding an air cleaner like a fan with a filter can help purge the organic gunk that may be coming from the plant, while the plant is taking care of the other stuff. The result is cleaner, better air, which can be a relief to asthma and allergy sufferers.

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Happy Halloween!

October 31st, 2011

Happy Halloween! Candy and costumes make any day fun; we hope you have a fantastic time trick or treating! Remember to be safe this holiday, and don’t forget it is time to start thinking seriously about fall maintenance for inside and outside your house. A quick tune up of your heating system will save you some trouble during this upcoming holiday season!

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Is Your Heat Pump Malfunctioning? (and Happy Halloween Weekend!)

October 28th, 2011

Happy Halloween weekend from everyone at Clean Air Act Inc.! We hope you have a fantastically spooky time! And since there is nothing more frightening than a broken heating system, here are some warning signs that your heat pump is malfunctioning.

In a perfect world, you would never have to worry about things like malfunctions or repairs. Everything would just work without ever needing to be maintained or fixed, and you could spend your time on energy on more enjoyable pursuits.

Unfortunately, no such perfect world exists. Things wear out and break down, often at the least opportune time. And of course, your heat pump is not immune. Despite being a great all around machine, a heat pump can malfunction, just like anything else.

But how can you know whether your heat pump is not working right? Here are some signs and symptoms that are often indicative of common heat pump problems:

  1. Too Much Noise – Whether emanating from your car or your usually quiet heat pump, noises are often the first sign that something is amiss. You should expect your heat pump to make some noise; the compressor and air handler are two culprits. However, if it starts making more noise than it did before, something may be up. Sometimes this is as simple as some loose fittings, but it’s still something that should be checked out.
  2. The House Is Too Cold – Obviously, if you get a heat pump to heat your house, you expect it to do just that. So, if your home is too chilly, you know something is amiss. If it’s way too cold, the heat pump may not be running at all, which can be the result of a serious malfunction. If it is only a few degrees below where you set it, it may be a different problem. It could be that something is malfunctioning in the heat pump, but it could also be that the outside air is too cold for the heat pump to keep the house warm. In that case, the best solution is supplemental heating.
  3. The Heat Pump Turns Off Too Soon – If your heat pump seems to be shutting off too quickly, it may be short cycling. That means that it is turning off before getting through its entire heating or cooling cycle. Frequently this is simply caused by dirt or debris around the outdoor coil, in the air handler or in the filter. Check these areas out and clean them. In general, you will want to keep the various components of your heat pump clean in order to ensure the best performance.

These are just some of the main symptoms of common problems. Other things can go wrong with your heat pump, although it is not very likely. As a general rule, if you notice your heat pump performing strangely or doing something it hasn’t done before, it’s best to get it checked out by a professional.

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How to Clean the Parts of a Heat Pump

October 26th, 2011

It is very important to keep the heat pump in your Newberg home clean. It improves efficiency, helps performance and prevents malfunctions. Cleaning your heat pump should be part of your home maintenance routine in order to keep the house as comfortable and worry-free as possible.

That is all well and good, but how do you go about cleaning the components of your heat pump. It’s one thing to advise you to clean, clean, clean…but it doesn’t do much good if you do not know how. To correct that, here are some tips to help you clean the different parts of your heat pump.

Caution: before doing any maintenance on your heat pump, including cleaning, be sure to turn off the power to the unit. This is a necessary safety measure.

Filters

  • If you use disposal air filters in your heat pump, skip this part. Just make sure to change them regularly, in accordance with the manufacturer’s instructions.
  • To clean air filters, follow the directions of the manufacturer that were included with the filter. This is also a good time to double check that the filters are installed properly.
  • Clean or replace your filters monthly during heavy use seasons, such as the warm summer months and cold months of late fall and winter.

Coils

  • Remove any debris from the outside of the coils and the surrounding area. Sticks and leaves may have accumulated near the outdoor coils, so just brush them away.
  • Using a soft brush attachment, vacuum the exterior of the coils. Take care not to bend or dent the coils.
  • Using a hose with a spray attachment, flush the coils with water from the inside out. This will remove any stubborn debris. Take care not to spray any electrical components, such as the fan or any nearby wires.
  • While you are inside the unit, vacuum the bottom inside to get rid of any more stray debris.

With that done, put everything back, replace the grille covers and power the heat pump back on. It should run smoothly with a fresh filter and no debris to gum up the works. Clean the coils every few months to keep the heat pump in tip top shape.

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