Archive for November, 2011

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What is Ductwork and How Do You Maintain It? A Guide from Norwood

Wednesday, November 30th, 2011

Most first time Norwood homeowners are aware of the importance of their heating and cooling systems. They keep you comfortable throughout the year, pumping heated and cooled air into every nook and cranny of your home. However, there is another system in your home that actually makes it possible for those other two systems to work. And while they are incredibly simple, your ducts must be carefully maintained year after year to avoid heat and cooling loss.

How Ducting Works

Ducts are installed throughout your home to deliver conditioned air from your air handler. The air is pumped into the ducts and directed by your thermostat system to where it is currently needed. Vents are opened or closed to release that heat or cooling and the house is properly tempered. Ductwork is usually made of sheet metal, though some flexible ducting is made with a combination of plastic, thinner metals and fiberglass.

Ideally, ductwork is crafted in such a way that it is air tight and able to deliver large volumes of air to any room of your home for decades to come. However, whether because of improper installation or extreme conditions, sometimes those ducts can come loose or gaps will form. When this happens, maintenance and repair are needed.

How to Maintain Your Ducts

To maintain ductwork, you must first have it cleaned once a year. Sometimes, this may be necessary more frequently depending on how often you use your home comfort system and how big your home is. Effective duct cleaning will remove any excess debris and dust and kill mold that has started to grow. High humidity can be controlled with a dehumidifier in your air handler and is highly recommended for all ductwork systems.

Additionally, you should have your ducts checked for leaks and gaps periodically. This will reduce the chance that your ductwork starts to leak anything out of the house or between rooms. Such leaks cost you money and put undue stress on your HVAC system. Overall, a good ductwork system is one that you never have to think about. Regular maintenance makes that possible.

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What’s the Difference Between a Furnace and a Boiler? A Question from Concordville

Monday, November 28th, 2011

When it comes time to choose a new heating system for your Concordville home, there is a good chance your choices are limited. Most homes already have either forced air or radiant heat equipment installed so choosing something different would be costly and unnecessary. But, if you have a choice or are moving into a new home, here are some things to consider regarding the difference between furnaces and boilers.

What a Furnace Does

A furnace uses a fuel like gas, oil or electricity to heat a series of coils in the device. The furnace then uses a blower to push air across the heated coil and into an air handler where it can be distributed throughout your home. This is called a forced air system and requires a combination of ducts and filters to keep air moving smoothly and cleanly throughout your home.

If you have access to gas, a gas furnace with an AFUE of 90% or higher is one of the most efficient and cost effective ways to heat your home.

What a Boiler Does

A boiler is different in that it uses water as the heat carrying medium, not air. Boilers still need gas, oil or electricity to heat up the water in the system, though they often use less of it than a traditional furnace – depending on the age of the furnace and the boiler. After water is heated in the boiler, your radiant heating system carries the water to baseboard heaters or radiators throughout your home. This form of heat is preferred by many because it doesn’t require ductwork (which requires extra maintenance) or extra air filtering and it is more humidity friendly in a large home.

In terms of efficiency, both boilers and furnaces are efficient if you’re buying a new model. Capacity is also evenly matched. Boilers take the edge in comfort level and if you have the budget, you can install radiant floor heating which allows you to pipe hot water directly into bathroom floors or your living space so that you never again need to walk on cold floors. Another benefit of radiant heating is that the system will hold heat much longer and then release it over time instead of turning on and off a lot as a furnace tends to do.

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Happy Thanksgiving!

Thursday, November 24th, 2011

Happy Thanksgiving!  We have a lot to be thankful for this year, especially all of our great customers! Have a very happy holiday with your family, friends, and loved ones. And don’t forget that Thanksgiving is also about amazing food; here is a recipe from allrecipes.com for some Sugar Coated Pecans that will add a little something extra to your day:

Sugar Coated Pecans

“These slow-roasted whole pecans coated in an egg white and sugar glaze spiced with cinnamon make a wonderful snack for any occasion.”

INGREDIENTS:

  • 1 egg white
  • 1 tablespoon water
  • 1 pound pecan halves
  • 1 cup white sugar
  • 3/4 teaspoon salt
  • 1/2 teaspoon ground cinnamon

DIRECTIONS:

  1. Preheat oven to 250 degrees F (120 degrees C). Grease one baking sheet.
  2. In a mixing bowl, whip together the egg white and water until frothy. In a separate bowl, mix together sugar, salt, and cinnamon.
  3. Add pecans to egg whites, stir to coat the nuts evenly. Remove the nuts, and toss them in the sugar mixture until coated. Spread the nuts out on the prepared baking sheet.
  4. Bake at 250 degrees F (120 degrees C) for 1 hour. Stir every 15 minutes.

For more details, click here.

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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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When Should You Replace Instead of Repair Your Heating? A Question from St. Davids

Monday, November 21st, 2011

We all dread an expensive repair, whether it is a car that needs a new transmission, a leaky roof that needs new shingles, or electrical wiring that has been chewed up by a wild animal. We often try and put bandages on things that we know should be replaced but we just can’t afford to replace them.

The same can be said about your St. Davids home’s heating system. When your heat goes out or your home just doesn’t seem to be heating up to the setting on your thermostat, your first inclination is to check and see if it is running. Some people will put their hand over a heating vent to check for hot air while others may go into the basement or mechanical room to listen to hear if the furnace is running. Maybe there is a blockage in the ventilation system or a blown circuit breaker, two relatively easy fixes.

If the furnace isn’t working after checking the obvious symptoms, your next move is to call for service. Any qualified heating professional would be able to diagnose your problem and offer suggested repairs. Something relatively minor like a bad circuit board or blown fan motor are not real expensive repairs and are the best option versus replacing the furnace. And you may keep experiencing the same problem and getting the same repair work done – anything to avoid an expensive replacement.

But at some point the vicious cycle will come to an end. Your repair bills will begin to inch their way past the cost of replacing the furnace. You can only bandage a problem so long before it becomes “unfixable.” You may not want to pay an expensive replacement bill but consider the alternatives.

First is the obvious – it costs too much to keep repairing the furnace. Secondly, you never know when the furnace may break down and its failure to operate could have dangerous effects on the people in your home, especially if someone is sick. Third, your furnace may not be able to keep up with the heating demand due to lifestyle changes, i.e. an addition put on the house, carpeting removed and wood floors exposed, a new window, door, or skylight added, etc. Your old furnace may not have been designed to keep up with these changes and the repairs are only delaying the inevitable.

Ask yourself if everyone in your home is comfortable during cold weather. If most answer no, it may be time to consider replacing that old furnace with a new, energy efficient model that uses today’s technology – and leaves a smaller carbon footprint – to keep up with the demand for heat, in any sized building or home. Your decision to replace your old heating system could be as simple as the need to use modern technology to solve your indoor comfort problems.

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Heat Pump Maintenance: A Guide from Folsom

Friday, November 18th, 2011

Heating and cooling your Folsom home is a priority. You need your home and family to be comfortable all year round, so you either got or are considering a heat pump. These machines are great because under the right circumstances, they are essentially all-inclusive and incredibly efficient solutions for all your home heating and cooling needs.

Notice the “under the right circumstances” part. A number of things have to be considered when choosing a heat pump, such as the climate and the size of your home. But these are not the only circumstances that influence how well your heat pump works for you. Proper maintenance is a vital component of heat pump ownership, ensuring that you get the best performance out of your heat pump for the longest time possible.

A major part of properly maintaining any machine is to keep it clean. A heat pump is no exception. Dirt and dust can affect the efficiency of your heat pump, as well as speed up corrosion problems. Keep the compressor and coils clean. Check them monthly or so and remove any accumulated dirt. Also, consistently check and change filters according to the manufacturer’s recommendations.

Simple cleaning is an easy and effective first step to heat pump maintenance, but there are some things that you just won’t be able to do on your own. For more intensive maintenance, it is best to call in a professional for an annual inspection.

During a routine maintenance check of your heat pump, a technician will inspect the whole heat pump system for problems. He will clean the compressor and coils, tighten any connections that may have loosened up and change the filters as needed. In addition, a skilled technician will be able to detect any early signs of trouble and make necessary repairs to prevent break downs. These small repairs can prevent big problems later on, thereby preventing some serious discomfort and a possible big expense.

If you are considering a heat pump as a heating and cooling solution for your home, great. If you have already decided on one and had it installed, congratulations on making a smart decision. Now, make another smart decision to protect that investment by keeping your new heat pump properly maintained.

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HVAC Safety the Whole Family Should Know: Some Pointers from Haverford

Wednesday, November 16th, 2011

If you think the most important thing a heating and cooling (HVAC) system can do is to provide an comfortable environment in your Haverford 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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How to Calibrate Your Thermostat: A Tip from Wallingford

Monday, November 14th, 2011

Have you ever set the thermostat in your Wallingford home to a desired temperature and “hoped for the best?” Maybe it’s because the temperature setting you expected this finely tuned instrument to maintain just isn’t right. You may see 70 degrees on the thermostat but the home feels more like 65 degrees. In fact, if you used a hand-held thermostat, you might get real proof that your thermostat is not working like it should.

There are reasons for a malfunctioning thermostat and solutions to correct them, namely calibration. First, let’s look at some reasons why a thermostat can be out of kilter.

The first thing to note is that thermostats are very sensitive instruments and change to the slightest changes in temperature. An incorrectly installed thermostat or one that is accidentally bumped or jarred can malfunction. It may wind up out of level, causing it to operate incorrectly. Possibly the most common problem affecting accuracy is a build-up of dirt, which can affect the calibration of the thermostat. Other problems may be caused by loose wiring.

Here are some steps you can take to check your thermostat for accuracy and recommended actions.

  1. Use a standard glass thermometer to check the room temperature. You should mount it on the wall nearby your thermostat and use some padding to keep it from actually coming in contact with the wall, which could affect the readings.
  2. Wait 15-30 minutes for the thermometer to adjust to the temperature and enable it to give the most accurate reading. Once the time has elapsed, compare its temperature reading to that on your thermostat.
  3. If there is more than a one degree variation, your thermostat may be dirty. Remove its faceplate and examine it. If there is dirt or dust inside, blow it out. If you can reach the contact points, you can clean them with a new dollar bill (and speaking of dollars, a clean and accurate thermostat will make your furnace run more efficiently and save you money on your utility bill).
  4. Some thermostats use a mercury vial which can indicate if the thermostat is level or not. If it is not level, a simple adjustment using a screwdriver may do the trick. In the worst case, you may have to remove the thermostat and drill a new hole to reinstall the mounting screw in a different location.
  5. Now that you have made these corrections, check both thermostats to see if the temperatures match. If they don’t, try steps 3 and 4 again. If that still doesn’t work, your problem may be more than just a dirty, lopsided thermostat. You may need to replace the thermostat – or even look at the heating system in its entirety. It could be time to call a professional heating contractor to check out your entire system.

Today’s thermostats have few working components but are very sensitive, advanced instruments. It takes little to throw off a thermostat but luckily, it takes little effort to correct the resulting problems.

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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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Electric Furnace Maintenance Tips from Chadds Ford

Wednesday, November 9th, 2011

Electric heat is clean – but Chadds Ford homeowners pay for that cleanliness with high utility bills. Depending on the area of the country, electric bills can rival those of gas, oil, or propane. So it is only natural to assume that an efficiently running electric furnace is a must for homeowners who are looking to keep their energy costs down.

Electric furnaces are fairly simple machines. They use heating elements to warm the air, which is then distributed through the ventilation system via a fan or blower. The heating element is made up of a metal wire that is heated by normal electrical current. The element is used to warm or heat something, much like the function of an oven or toaster. Their operation is fairly simple – either they work or they don’t.

When a heating element fails it is usually because it is broken, bend, or misshapen. When that happens, it is time to replace it. You can do some preventive maintenance with a visual inspection of your heating elements. If your inspection does not reveal any problems, you can test the element for continuity. You should know how to use an ohmmeter to test it or ask a professional heating and cooling technician to check the elements for you.

Speaking of visual inspection, you can do a quick check for any frayed or damaged wires, which can be a source for wasted electricity, too. Another way to ensure that your electric furnace is running efficiently is to replace or clean your furnace filters on a regular basis. A clogged filter can make a furnace work harder and lead to premature mechanical failure.

And obviously, if the furnace is not working it is best to check for any blown fuses or tripped circuit breakers in the main electrical panel box. If you find one, make sure you replace it with another of the correct amperage.

Lastly, check to make sure the blower motor is operating correctly. You can have perfectly working elements but if the blower can’t push the warm air through your ventilation system, then all of the steps to ensure the electricity is working are for naught. You can usually hear a noisy motor or smell one that isn’t working improperly. Check it on a regular basis and check the fan belt for any damage or slippage, too.

As you have read, an electric furnace is a very simple machine with simple working parts. Maintaining it is just as simple. If you have any questions, talk your local contractor.

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