Posts Tagged ‘Malvern’

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Media HVAC Tip: Green Building Trends for New Homes

Monday, May 7th, 2012

In a society with an increasing an eye on reducing waste and creating energy-efficient spaces, it might not be as surprising to know that the green building market has been steadily increasing over the past few years, and in years to come is expected to triple from what it is now.  The variety of green building trends for new homes which are in place today are staggering and exciting, and will ultimately change the way we build homes and business facilities in Media, permanently.  According to the Earth Advantage Institute, below are the latest green building trends for new homes to watch for in the near future.

  • Urban Density:  Homeowners are opting to build in the empty space between existing homes or buildings.  These lots are desired by those who want to be closer to city-centers and hotspots.
  • Green Multi-Family Homes:  An increased interest in energy-saving building options and an increase in the number of multi-family homes being built mean an increase in green multi-family homes.
  • Energy Upgrades Drive Home Remodels:  Consumer preference has switched to remodeling in order to save energy in their upgrades.  Thus contractors have begun to offer these types of services as a standard option in remodeling projects. Some of these services including installing energy efficient air conditioners and furnaces.
  • Development and Testing of New Materials: National labs and research departments are working with construction firms in order to produce test facilities and sensor-filled buildings which track real-time energy performance of new materials and equipment.
  • Consumer-Friendly Home Energy Tracking Devices:  Sensor-based energy and water monitoring systems are being used by consumers to save money all throughout their homes and the number of companies creating these tracking devices is increasing, making them easier to come by.
  • Energy Education for Commercial Tenants:  Commercial building energy disclosure is pushing building owners to be more energy efficient, this in addition to educating tenants on ways for them to contribute to saving energy means that more commercial buildings are going green.
  • Transparency in Home Marketing:  Consumers who have instant access to information are more educated and can see through housing scams more easily. Real estate agents who are forthright and educate clients even further on the benefits of having energy efficient home features means more confidence in the green housing market.
  • More Accurate Appraisals:  With more educated consumers looking for Certified Residential Green Appraisers, the lending community is beginning to follow suit and pay attention even further to the added value and return on investment for green homes and green remodels.
  • Broader Adoption of Residential Energy Ratings for Homes:  Energy labeling systems are being put into place nationally, thus causing homeowners to be more educated regarding energy savings possibilities.  More extensive usage of residential energy ratings for homes means homeowners are undertaking more energy upgrade work.
  • Smart Grid-Compatible High-Performance Homes:  More new homes are utilizing “grid-aware” appliances which monitor and report their own usage with the ability to increase or decrease electric usage remotely, thus saving energy.

For more information about how you can upgrade your Media home’s HVAC system, give Cool It Heating & Air Conditioning a call!

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Gradyville Furnace Repair Question: What Causes Cracks in a Heat Exchanger?

Wednesday, February 22nd, 2012

Furnaces are designed so that the heat – and the combustion byproduct produced inside – doesn’t interact directly with the outside air. This design is to ensure you have a safe furnace in your Gradyville home that won’t inadvertently affect your family’s health.

The metal piece that separates the furnace heat from the outside air stream is called the heat exchanger. The heat exchanger performs a very important function, and if it is broken or cracked, it can’t work properly.

A cracked heat exchanger is very common problem with heating systems, as well as one that should be repaired as soon as possible. But what causes a heat exchanger to crack? Here are some of the most common reasons:

  • A long period of normal use. A furnace heat exchanger naturally expands and contracts with the heat of the furnace, over and over again as the furnace is turned off and on to heat the home. Over several years, this stress can crack the metal.
  • Poor air flow, often caused by dirty or obstructed vents, can result in poor air flow through the furnace. This overworks the furnace, which can crack the heat exchanger prematurely.
  • Poor, incomplete or improper combustion can also cause a heat exchanger to crack. When the combustion process is less efficient – which can also be a result of poor air flow — your furnace’s burners have to run hotter and longer to heat your home, which means extra stress on the heat exchanger.

Essentially, if a furnace is running at less than optimal efficiency for an extended period of time, the heat exchanger is put under additional stress beyond the usual and can crack prematurely. Therefore, the best way to prevent a cracked heat exchanger is proper maintenance, particularly keeping all vents clean and unobstructed and getting an annual maintenance inspection.

If your heat exchanger does crack, do not hesitate to call Cool It Heating & Air Conditioning and get it repaired. The crack can allow potentially dangerous combustion gases to seep into your home, which can have a negative impact on your family’s health.

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Concordville Heating Repair Question: What Are Flue Gas Spill Switches?

Monday, February 13th, 2012

While some components of a heating system make sense to the average Concordville homeowner – think blower fan, thermostat and air ducts – others are more esoteric and prone to bouts of head scratching.

So, you may find yourself asking “what the heck is a flue gas spill switch?”

As you know, gas heating appliances produce heat by means of combustion. The gas line feeds gas into the appliance, the gas is ignited, and the burning gas produces heat. It’s a simple concept that goes all the way back to our caveman ancestors building fires to keep warm, and it is the same process in gas furnaces, boilers and water heaters.

In addition to producing the cozy heat we love in the winter time, this combustion process also releases gases. Known collectively as “flue gases,” some of these – carbon monoxide being the most notorious – can be very toxic. This why we have flues or chimneys in our homes– to give these gases a means of egress.

A flue gas spill switch is designed to shut down the furnace if these gases start seeping out. It is made up of a sensor or series of sensors that detect heat outside the flue, not unlike the flame sensor in your furnace. If flue gases start to escape and pass by the sensor, the sensor heats up and signals the furnace to shut down. This cuts off the power and gas, so that no more flue gases can leak into the home and create a health concern.

If your furnace has been abruptly shutting down, it could be your flue gas spill switch trying to tell you that you have a leaky or cracked flue. If this is the case, you want to have it repaired right away. The constant off and on is not good for the furnace, and more importantly, those flue gases can be exceptionally hazardous to your family’s health. If you think you have a problem with your furnace, give Cool It Heating & Air Conditioning a call!

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Malvern Heating Repair Guide: Condensate Drain Line Freezing Problems

Monday, January 30th, 2012

As you know, the condensate produced as byproduct during normal operation of your furnace has to be drained away. It’s toxic, very acidic and has been contaminated by the normal combustion that takes place in your Malvern home’s furnace, so you certainly don’t want it hanging around.

The typical solution is to have it drain out through a drain pipe, usually beneath the floor of your basement foundation, or down the side of your home and out through a downspout. But have you ever had your condensate line freeze up on you? That is no fun chore to deal with.

A frozen condensate line is usually caused by poor insulation. What happens is that when the temperature drops, the rate of drainage begins to slow down and the droplets begin to freeze one by one, like icicles, until the whole pipe is frozen. This creates obvious problems and can interfere with the proper heating of your home.

Usually, this just means the pipe is poorly insulated, which is a solution that can be remedied. If you have a condensate drain line that freezes anywhere other than under the foundation – for example, one the runs down the side of your home – you can try wrapping it in heat tape.

Sometimes, the best way to rectify the situation once and for all is to reroute the pipe. This can be a somewhat involved process, depending on where the drain line is. For example, if the pipe is poorly insulated because it is buried to shallow beneath the foundation, it will have to be dug up to be rerouted along a warmer path.

If you have already tried insulating the pipe with heat tape or some other solution, but the freezing problem continues to occur, then rerouting is probably your best option. For that kind of job, the average Malvern homeowner should consult with a professional, as the job can get challenging and a little dangerous.

It will be worth it to not have to deal with that freezing drain line anymore, though.

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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 to do if Your Heating System Breaks: A Guide from Malvern

Friday, November 4th, 2011

What if the heart of your Malvern home’s heating system – the furnace – stops working? The warm air that used to flow from your vents has been replaced by a chilly draft. It isn’t time to panic, but it is time to take action. Before you do anything, determine why the furnace stopped working. It may be something as simple as a tripped circuit breaker in your electrical panel. Check the circuit breakers first.

The pilot light in your furnace may have blown out. It can be re-lit if you follow the directions in your furnace owner’s manual. You can find answers on how to re-light a pilot light on the Internet, too.

If the shutdown has not been caused by an electrical or pilot light failure, there is still no need to panic. But another obvious question is: did you pay your last gas bill? Maybe you had a shutoff notice and either ignored it or forgot about it.

Now that you are convinced that the furnace has pooped out, here are some things you should do. First, find the name of a qualified heating and cooling professional. If you already use a heating contractor, contact them and schedule a service call.

While you are waiting for help to arrive, ensure that everyone is safe and accounted for. Make sure pets are nearby and protected from the cold, too. What you don’t want to do is use any appliance to keep you warm that is not designed to keep you warm, like a stove. If you have electric space heaters or propane heaters, carefully locate them in a well vented room (windows open a bit or portable fans circulating air). You don’t want any build-up of gases from fossil burning appliances, gases which could contain deadly carbon monoxide.

Huddle up everyone into a room and break out lots of blankets. You may even want to make an “adventure” of this – find a movie to watch and pop up a bunch of popcorn.  If your waiting time is more than 24 hours, you might want to call up a friend or relative and make arrangements to spend the night with them.

The main thing to remember is not to panic. Most qualified heating contractors, knowing the circumstances, will send out a repair person in a matter of minutes or within one or two hours. Just remember to avoid keeping warm by using unvented heating devices.

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Different Types of Furnace Maintenance: A Guide from Gradyville

Friday, October 28th, 2011

If you haven’t done so already, take your automobile owner’s manual out of your glove box and check out the section where it lists regularly scheduled maintenance. You will probably see that the most frequent maintenance tasks are changing the oil, checking fan belts, changing windshield wipers blades, checking all fluids, and checking tire pressure. These are regular, routine tasks. You will also see other tasks like changing fuel filters, flushing radiators, and changing transmission fluid.

You know that there are different types of maintenance tasks associated with keeping your automobile in tip top shape. Did you also know there are tasks that can be performed at various intervals to keep your home’s furnace in peak running condition? Well, there are.

For example, the most frequent maintenance task is checking the filters in your air handling unit. These are often called furnace filters but in reality, they serve the same function to filter air to and from your air conditioner, too. It might be easiest to just call them air filters. The frequency of replacing or cleaning air filters usually depends on the type of indoor environment you live in – like humidity levels, number of household pets or occupants, etc. In general, filter maintenance should occur every one to three months.

A less frequent maintenance task is cleaning the moving parts of the internal mechanism. You may only need to have your furnace cleaned every six months to a year, depending on its use. In some cases you can perform the cleaning yourself or it is included in an annual cleaning as part of a service agreement with a qualified heating and cooling contractor. A furnace can typically run at peak efficiency when it is cleaned on an annual basis.

You can also make it a regular habit of checking the motor bearings and fan belt, too. You can lubricate the bearings and tighten or replace the fan belt on a same schedule as cleaning the moving parts.

Other maintenance tasks related to your furnace, which may require longer interval times include ventilation system cleaning, or more commonly known as duct cleaning. Some homes don’t require this type of maintenance more than every five to ten years – perhaps longer. Unless there are unusually high levels of dust, allergens, or contaminants in the air, most ventilation systems can remain clean for several years.

Of course, you can turn all of your maintenance tasks over to a heating and cooling contractor – and have the most peace of mind.

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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 Much Can I Save with New Equipment? A Question From Ardmore

Wednesday, September 21st, 2011

There is certainly something to be said for upgrading your current HVAC equipment in your Ardmore home to newer, more energy efficient equipment. Doing so can save you a ton of money in heating and cooling costs and it can make your home a more comfortable place in general. Of course, upgrading your equipment is a big investment, but ideally you will save enough on your monthly energy bills that it will more than make up for the initial cost of the installation.

But before you can decide whether or not it makes sense for you to upgrade, you need to know exactly how much you stand to save every month by upgrading. And that will vary considerably depending on several particulars of your situation.

For instance, you will have to take the age of your current system into account. No matter how energy efficient your system was when you first bought it, that energy efficiency has almost certainly deteriorated over time. Plus, the older your system is, the less energy efficient it probably was to start with. And the less energy efficient your current system is, the more you will save when you upgrade to a newer, more energy efficient system.

But that is not the only variable you will have to be on top of. The amount you will save monthly and annually will also have to do with how much you use your HVAC system. If you live in a rather temperate climate, you may use your HVAC much less, both in the summer and the winter.

In a case like this, the percentage you will save with an equipment upgrade will be the same as it would for someone who lived in an area with a harsher climate, but the actual dollar value will be much lower. All that really means is that it will take you longer to recoup your investment, but it may still be worth it to invest in a new system now.

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The Preventative Maintenance That Will Save You the Most in Aston

Monday, September 12th, 2011

Having a high performance, energy efficient HVAC system will save you a good deal of money in terms of your monthly heating and cooling bills for your Aston home. But that efficiency will not last unless you also take the necessary steps to keep your equipment in good working order. While regular maintenance visits from a professional HVAC technician are an important part of this, there are also several things you can do on your own to keep your equipment running at peak efficiency.

  1. Keep it Clear – The first thing you should do is to make sure that there is plenty of space cleared around your outdoor unit. Whether it is the condenser and compressor for your air conditioning system or part of your heat pump, that outdoor equipment needs to have plenty of space to vent hot air. Also, the space will mean that debris is less likely to develop inside the unit.
  2. Clean the Condensing Coil – While your technician will do this when they make their annual visit, it is best to clean your coil more than just once a year. Just make sure that the power is turned off to your unit before you begin. This will help the unit cool air more efficiently and can prevent a whole host of other problems from developing.
  3. Check on the Blower – If your blower is not working right or the blade is clogged, your HVAC unit will not work properly. Make sure your blower fan is free of all debris and that is turns freely once you have cleaned it. If you are still having a problem with it, you may have to call a technician for repairs. Cleaning the blower out on a regular basis, however, should keep this from becoming a problem you need a professional for.
  4. Air Filters – You should also make sure you change your air filters regularly. This can help to keep your indoor air clean and healthy and it will also enable your HVAC system to run more efficiently.
  5. Clean it Out – Clean out any debris that you can reach from any part of your system. Just make sure any time you work inside your HVAC system that you have all of the power turned off. Anything from leaves to dust can get in there and cause a problem if it is allowed to build up over time. As long as you are on top of things and keep to a regular schedule of maintenance, none of this should take you very long.

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