Posts Tagged ‘Bala Cynwyd’

Bala Cynwyd Heating Repair Question: Why is my Air Handler Squealing?

Monday, February 6th, 2012

Unusual noises coming from your Bala Cynwyd home’s expensive HVAC system never a good thing; they make you worry that something is wrong.

It’s true that an unusual noise does often mean that something needs to be fixed; however, a noise emanating from your HVAC system does not necessarily mean a major repair. You should always have a technician check out if you suspect a problem with your system, but not all problems are going to be expensive to fix.

One common noise that homeowners notice and complain about is a squealing noise originating in the air handler. Usually, this noise is coming from the fan belt that connects the blower fan and the motor. Over time, the belt can stretch out and become worn or misaligned, which makes it slip and generate that aggravating squealing noise.

So, while the squealing can be annoying and unpleasant, a slipping belt is by no means major. A belt is an inexpensive part and a technician can install it in just a matter of minutes.

As long as the noise is a squealing and not a grinding, this simple fix will often take care of the problem. If you hear a grinding noise, however, immediately shut the unit down and call a technician. This may mean that your motor bearings are worn out and need to be replaced ASAP before further damage is inflicted on the motor itself.

 

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Wynnewood HVAC Tip: How a Ceiling Fan Can Help Heat Your Home

Monday, January 9th, 2012

Most people who have ceiling fans in Wynnewood never turn them on in the winter. They assume that the fan is designed solely to cool the house – after all, blowing air feels pretty nice doesn’t it? But, a ceiling fan can actually help to move heat around your home and lower your heating bill if used properly. Here are some tips to do just that.

Rotating Warm Air

Warm air naturally rises. So, when you turn on your furnace and the blower fan pushes warm air through your ductwork into the various rooms of your home, the warm air immediately rises to the ceiling. So, for the room to feel as comfortable as you want it, you must wait for enough heat to circulate into the room to displace the cold air that was already there.

However, instead of waiting for warm air to fill the room, you can circulate the warm air as it arrives with a ceiling fan. By turning on your ceiling fan and changing the direction so it blows down (which most people already have it set to), the warm air will be pushed toward the floor, mixing it smoothly into the room and keeping you more comfortable without having the furnace on constantly.

This does two things. First, it keeps the room comfortable regardless of when the furnace cycles on or off. Second, it keeps the thermostat reading stable so the furnace doesn’t cycle on and off so quickly. If the warm air regularly rises up and the lower levels begin to cool, your furnace will frequently turn on and off as it tries to maintain the same temperature.

A Low Cost Addition to Your Home

Ceiling fans are inexpensive and aesthetically pleasing. They move air throughout the room, keep warmth low where you need it and can help reduce your energy bill in multiple ways. If you’re not sure whether a ceiling fan is right for you, talk to a Wynnewood heating technician about just how much money one of these simple devices can save you. I bet you’ll be convinced.

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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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How Do I Check a Gas Furnace Draft Pressure Switch? A Question from Bala Cynwyd

Monday, October 10th, 2011

There are many reasons why a furnace stops working and in many cases, a Bala Cynwyd homeowner can perform some simple diagnostics to pinpoint the problem. Finding the problem is one thing – fixing it is another. When in doubt, don’t try it yourself. Call a qualified professional.

But let’s look at one possible problem and solution you may be able to perform yourself – testing the draft pressure switch. The draft pressure switch on a gas furnace allows an electrical current to pass through to ignite the furnace. The pressure switch monitors the draft conditions and won’t allow the furnace’s gas valve to open unless draft is correct.

If the switch is malfunctioning, so too will (or will not) the furnace.

The best way to locate the switch is by consulting with your owner’s manual or by going online and simply typing in the words “gas furnace draft switch.” It is identifiable by its round size and is bolted to the outside of the furnace. It should be nearby the draft inducer motor because the two are connected by a metal tube. The tube may sometimes be the culprit, too. A tube that is blocked with condensation may cause the switch to go bad.

To check for proper function, first turn off power to the furnace, either by shutting down the “on’ switch at the furnace or shutting off the circuit breaker.

Use a volt ohm meter to check if the switch is opening and closing properly. Start by zeroing out the meter’s probes by touching the tips together. Using the dial (could be analog or digital), set the meter to 24 volts. Ground the black probe by attaching it to any metal part of the furnace. Then place the end of the red probe on the metal tube connecting the draft pressure switch to the draft inducer motor.

If the switch is working properly the meter should read at least 24 volts, or very near that. If the reading is short of 24 volts, the switch is not working correctly. At that point you may decide to replace it or call a professional to do the task (recommended).

Always remember that there are many sources which will help you diagnose and repair a problem, especially those available through the Internet. If you search YouTube.com you will find many videos advising you on how to repair certain components. Use all of the resources available to you and keep the phone number of a qualified and professional heating and cooling contractor nearby.

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What to Do if Your Ceiling Fan Does Not Work: A Tip From Wynnewood

Monday, August 8th, 2011

A ceiling fan is a great addition to your Wynnewood home. It can keep you cool all on its own on moderately warm days and it will help to take on some of the cooling load even on days when you do need to use the air conditioner as well. Plus, you can even use your ceiling fan in the winter to keep the warm air from your heating system circulating properly.

But just like anything else, your ceiling fan will encounter some sort of problem from time to time. While there are certainly some things that you cannot fix on your own, it is a good idea to check on a few items before you call in a professional repair person.

For instance, if you switch on the fan and nothing happens, make sure that all of the controls are in the place they should be. Most ceiling fans have a chain or dial on the body of the fan itself that controls the direction that the fan turns and can even turn it off. However, there is usually also a power switch on the wall. If you flip the switch and the fan does not turn on, there is a good chance that the setting on the fan itself is in the off position.

After ensuring that all of these switches and controls are calibrated properly, you can also take a look at the fuse and the breaker that the fan is connected to. If the breaker is thrown or the fuse is blown, the fan is not getting power and you will have to replace the fuse or reset the breaker to restore power to that circuit.

If that does not solve the mystery either, you may want to test the blades themselves to see if they seem to be stuck on a physical impediment. Ceiling fans do occasionally need to have their bearings lubricated and this is a relatively simple task that you can carry out on your own as well.

However, if none of these actions seems to solve the problem, then you will probably need to call in a Wynnewood professional to assess the situation and make the necessary repairs. There may be a mechanical problem within the fan itself or the wiring could be frayed or fused and these are not repairs you should attempt to make on your own.

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Attic Fans – Cool Your House Quickly

Wednesday, July 13th, 2011

When you’re worried about keeping your home cool in the summer, having a good air conditioning system is probably the first thing that comes to mind. And a high-quality, energy efficient air conditioner is definitely an important component of your home comfort system. But if you really want to get the most out of that air conditioner without paying too much in energy costs, you should look into having an attic fan installed as well.

The Value of a Good Attic Fan

So why do you need an attic fan if you already have an air conditioner? Well, to begin with, a great deal of the heat that comes into your house during the summer does so directly through the roof of your home. As the sun beats down on your roof hour after hour, heat is constantly being transferred through the roof and into your attic. And as the temperature in your attic rises, some of that heat is transferred to the air in your living spaces as well.

Of course, with your state of the art air conditioner in place, you probably won’t even be aware that this is taking place. But because the heat coming into your attic raises the temperature in other parts of your home, your air conditioner is working that much harder to maintain a comfortable temperature in all living spaces. And that means it’s using more energy than necessary to keep your house cool.

One easy way to combat this situation is to put in an attic fan. Many of these devices even run on solar power, so once they’re in place, they cost you virtually nothing to operate. A good attic fan will switch on anytime the temperature in your attic gets above a certain level and will work quickly to channel that extra heat right back outside. This means that your attic temperature will stay at a reasonable level, and the rest of your house will not be impacted by the heat coming in through the roof.

While an attic fan isn’t a terribly complicated piece of equipment to install, it’s worth it to have the job done by a professional because it does involve cutting a hole in your roof all the way through to your attic. A professional can make sure that the hole is in the proper place and sealed up tightly so water, bugs and other debris don’t find their way in.

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Is it Possible to Vent Hot Air from a Garage?

Friday, May 20th, 2011

If you have a garage, you know how hot it can get in there on a warm summer day. In fact, the air in your garage is likely hotter and more humid than the air right outside. Of course, you may not spend a lot of time in your garage, so reducing the temperature in there might not be an immediate concern for you.

But just like heat buildup in your attic, higher temperatures in your garage can have negative effects on the temperature in the rest of your home. Heat seeping into the house from the garage will cause your air conditioning system to work harder to keep it comfortable indoors. And that’s going to cost you money.

Getting the Heat Out

For all of these reasons, it’s a good idea to reduce the temperature in your garage as soon as possible. Of course, if you’re actively working in the garage or right outside, you can always leave the door open. This allows an influx of fresh, cooler air to clear it out.

But that’s not really a practical solution when you’re not immediately on hand. After all, you can’t leave your garage door open indefinitely and as soon as you close it, the heat will start to build right back up again.

Vents and Fans

One thing we don’t want to forget is that heat rises. That means installing a vent and fan in the roof where the hottest air will be can help remove the majority of the excess heat building up in your garage. Just like an attic fan, this fan can be triggered to come on when the temperature inside the garage reaches a certain point. Usually, the fan comes on when the indoor temperature reaches a point that is likely higher than outside – 90 degrees F or higher.

The fan then draws hot air out through your vent, reducing the temperature inside the garage to equalize the outdoor temperature. This will be effective in and of itself, but if you want even better results, you can also install another vent towards the bottom of your garage door. That way, as the hot air is pulled out of the top of the garage, fresh air will be drawn in through the vent, providing a constant stream of cooler, fresh air and promoting healthy circulation within your garage.

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What Is AFUE and Why Should I Care?

Wednesday, April 6th, 2011

If you’ve been shopping for a furnace, chances are you’ve noticed that each furnace has its own annual fuel utilization efficiency (AFUE) rating. These generally range from 80% to the high 90% s and the higher the number, the more fuel efficient that particular furnace is.

But what does this number really mean and just how much should you care? Well, the AFUE rating should actually have a significant impact on your furnace purchasing decision, but that doesn’t mean that you’ll always choose the furnace with the highest efficiency rating either.

For one thing, you’ll have to recognize that not every type of furnace is capable of running at the highest efficiency levels. Oil furnaces, for instance, can’t compete with the super high efficiency gas furnaces on the market today. That’s not to say that an oil furnace might not be the best choice for you under certain circumstances, but it does mean that you should take a close look at your furnace usage before you make a decision.

If you do choose a gas furnace, you will of course have the option of getting one that can reach up to 97% or so efficiency. However, that may not always be the best choice either. If you live in a place where with very harsh, long winters and you’re going to be using your furnace heavily, then it’s definitely worth investing in a higher AFUE furnace that can save you considerable amounts on your monthly heating bills.

But if you don’t use your furnace too often as your area has more mild winters it’s probably not worth it for you to invest in such a high efficiency product. That’s because the higher the AFUE of the furnace, the more expensive it is to purchase and install. Certainly you’ll save money every month because you’ll be getting more heat out of the fuel you’re paying for. But if you don’t use your furnace all that much, the savings really won’t be that substantial.

Don’t forget that a furnace with an 80% AFUE rating is still quite energy efficient. And once you get up that high, you have to use your furnace a lot for the difference between 80% and 90% to really become apparent. So if you don’t use your furnace heavily during the winter, it will take you many, many years to make up for the higher purchase price of the 90+% AFUE models.

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