Posts Tagged ‘Audubon’

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Villanova Heating Repair Tip: Reasons Your Furnace Is Producing No Heat

Friday, February 17th, 2012

The last occasion on which you want to worry about your furnace not producing any heat is the dead of winter, when the outside is chilly you just want to seek refuge in your own toasty Villanova home…only to discover that it’s not much warmer than the outdoors.

This may seem like a total emergency, and the combination of chill and frustration may cause panic to set in. Don’t start fretting too much just yet, though. There are some potentially simple causes and solutions for this problem, such as:

  • The thermostat may be set too low or on the wrong setting. Yes, it seems obvious, but sometimes the solution is staring you right in the face. Check that your thermostat is set high enough to call for heat and that it is on HEAT mode.
  • A circuit breaker may be tripped or a fuse may be blown. It could be the one dedicated to the thermostat, glow coil igniter or furnace itself. Check the breaker or fuse box in your home and either flip the breaker or replace the fuse. If it continues to trip or blow, get it looked at professionally—there may be a bigger problem going on.
  • The thermostat may not be working, so it is either improperly detecting the temperature or improperly reporting it to the furnace, so the heat does not kick on. Either way, it probably needs to be replaced.
  • The furnace is not igniting properly. This could mean the pilot light is out on furnaces without electric ignition, the gas valve is closed and can’t ignite or some other ignition malfunction. Check the pilot and gas valves to make sure they are on and working.

If you have checked all these things and the thermostat still is not working, or if you don’t feel comfortable looking into these causes on your own, you are best served by calling a professional repairman like Cool It Heating and Air Conditioning to diagnose and fix the furnace.

Often, these big failures are just the symptom of a smaller problem, so in all likelihood you won’t have to replace the furnace or do any major repairs, especially if it has been well-maintained throughout its life.

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Audubon HVAC Question: How Do You Measure Your Air Cleaner’s Performance?

Friday, February 10th, 2012

Your Audubon home’s air cleaner is designed to keep your family comfortable and healthy, regardless of what contaminants make their way inside. This is important because homes these days are sealed up tightly to minimize the loss of heating or cooling, but as a result they have poor ventilation and frequently they will suffer a buildup of excess contaminants like mold, dust, pollen and dander.

To ensure you get the best possible air cleaner for your home, there are a number of measurements available to help you in the purchasing process. Let’s take a look at a couple of those measurements and what they mean.

 MERV

MERV ratings are used to measure the ability of a filter to remove dust from the air that passes through it. The higher the MERV rating, the better the filter works at removing particles. The MERV rating scale goes from 1-16 with 16 being the best possible rating you can obtain from a residential (non-HEPA) grade filter. Usually, they are designed to measure things like dander, dust, smog, wood smoke, spores, bacteria and mold.

When choosing an air cleaner, it is recommended that you look for a MERV rating of at least 8, which is good enough to remove almost all common household contaminants. Higher MERV ratings (17 and up) are found in HEPA filters which are considered among the best on the market, able to remove particles as small as 0.3 microns.

 CADR

This rating stands for Clean Air Delivery Rate and is a measurement of how efficiently the air cleaner delivers clean air for tobacco smoke, pollen and dust (the common measurements given for each device). This is not a measurement of the efficiency of the device, so much as the speed of it the device. So, the higher the CADR measurement for all three contaminants, the faster those particles are removed from the indoor air.

The best way to choose a device to match your needs is to look for a CADR rating of at least 2/3 of the size of the room you are cleaning. So, if you are cleaning the air of a 150 square foot bedroom, you should get a device with a CADR rating of at least 100.

When choosing a good air cleaner for your Audubon home, make sure you do your research and choose on the best possible option for the space you need to clean. MERV and CADR allow you to do this. If you have any questions about what air cleaner is right for your home, call Cool It Heating and Air Conditioning!

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Audubon Heating Replacement Checklist: What You Should Consider Before Upgrading

Monday, January 23rd, 2012

Many Audubon homeowners who heat their homes with an older heating system—whether it’s a furnace, boiler, or heat pump—may want to consider upgrading to a more efficient system. Older furnaces with an AFUE rating of less than 80%, for instance, could be costing you a lot more than you realize in heating bills.

While it is a significant initial investment, upgrading to a more efficient furnace or heat pump will pay for itself in energy savings. Before you decide on whether or not an upgrade is right for your home, here are some things to keep in mind.

Fuel Costs

Some types of fuel, such as electricity, are more expensive in certain areas. Depending on where you live, you may want to compare the cost of fuel before choosing a heating upgrade. In fact, natural gas may or may not be available to your home. Check with your utility company to find out what types of fuel are available and which ones would be more cost-efficient for heating your home. You can always call a qualified HVAC technician if you have any questions about a heating system upgrade.

Insulation

Whenever you are thinking about upgrading your heating system, you’ll want to make sure your home is properly insulated and sealed. If you purchase and install a highly efficient furnace, it won’t save as much in energy bills if your house is poorly insulated. Get a home energy audit with a local energy resource organization if you aren’t sure. You might want to also consider upgrading your old windows and doors, or installing storm doors and windows to improve air tightness.

Property Value

A lot of homeowners forget that any upgrade or remodeling project will increase the value of their home. Not only will a heating system upgrade lower your heating bills; it will also add value to your home and property. Always make sure you choose the right system for your home so that it lasts as long as possible.

If you are considering upgrading the heating system in your Audubon home, call Cool It Heating and Air Conditioning to speak with one of our HVAC experts to ask about our quality products and installation services.

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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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Is a Heat Pump Right for Your Home? A Guide from Primos-Secane

Friday, October 21st, 2011

Deciding which type of home comfort system to go with in Primos-Secane can be a difficult process to navigate. There are a ton of factors to take into account including how much you will be using the system, what type of fuel you mainly rely on and what the specific climate is like where you live.

Heat pumps are a great home comfort solution for many people but they aren’t always the appropriate choice. However, there are many benefits to going with a heat pump system, so this is certainly an option you should keep in mind as you evaluate your options.

Heat pumps work by extracting heat from the air in one place and then transferring that heat to another space. For instance, in the winter, heat pumps take heat from the outside air and pump it into your house. In the summer, on the other hand, your heat pump will be able to take heat from your indoor air and pump it back outside, thereby keeping your home cool and comfortable.

Heat pumps are also extremely energy efficient because they don’t actually have to generate the heat they pump. Unlike furnaces, which take in fuel and convert it into heat, heat pumps simply harness the heat that’s already there, making them by far the more energy efficient option.

Another benefit to heat pumps is that they maintain a more constant temperature than many other types of heating systems do. Rather than pumping in a big blast of hot air and then waiting until the temperature indoors falls below a preset level before doing it again, heat pumps provide a relatively constant stream of warm air.

The initial amount of heat is smaller than what you might be used to from a furnace, but the cumulative effect means that you’ll be able to enjoy a much more consistently comfortable indoor environment.

It is important to evaluate the climate in your area before you decide to purchase a heat pump, though. These systems are extremely effective at heating and cooling your home as long as temperatures stay above the mid-thirties.

Below that, you may need to install some type of supplemental heating in order to keep your home warm enough on those really cold days. So if you live in an area where temperatures routinely dip below freezing for large portions of the winter, a heat pump might not be the most sensible solution for you.

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New Filter Ratings – How to Evaluate Your Filter: A Guide From Audubon

Friday, October 14th, 2011

Every Audubon home has need of a handful of filters that provide with comfortable, affordable air quality and temperature control throughout the year. So, when buying a new filter or upgrading your current system to provide the right comfort level for your home, there are a few things to consider. First is the actual rating of your filters. Every filter is rated for a particular level of efficiency. The higher the rating, the more particles it catches, but also the more it will cost.

Air Filter Ratings

Air filters are rated with a number of scales but the only one that really matters is the HEPA filter rating. HEPA stands for high efficiency particulate absorbing. These types of filters are considered the best on the market. A HEPA filter comes with a number of options. The actual device that uses the filter will have an MERV rating that corresponds to how small of particles it can capture.

An entry level MERV rating is usually around 10 and will capture most major particles like dust, debris, dander and pollen. However, the highest rated HEPA filters have MERV ratings of 13 and can capture particulates as small as 0.3 microns 99.7% of the time.

Some filters are even capable of capturing viruses and bacteria, which are often much smaller than those other particles but can be caught in the debris field through the filter.

What You Actually Need

So, what does your home actually need? It depends largely on how much you need to filter out of your indoor air. Most often, the contaminants you should worry about include dust, pollen and dander which mean a modest MERV 10 air filter is plenty.

However, if your air is filled with smaller contaminants like mold spores, a high grade HEPA filter is a must – not just for your comfort but for your health.

There are also other indoor air quality products you can get to supplement your indoor air quality system. These include UV germicidal lights to target airborne pathogens and humidity control devices to create the ideal environment in your home. Whatever you choose, know that it is possible to keep your family comfortable year round.

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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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Installing Automatic Thermostats – Quick Fix to Energy Savings

Friday, July 15th, 2011

While you probably spent a lot of time researching your home heating and cooling system to make sure you got one with great energy efficiency ratings and all of the other features you were looking for, one thing you may not have thought a lot about is your thermostat. The thermostat in your home is your direct link to your home comfort system, and the type and quality of the product you have in place can have a much bigger impact on the performance of that system than you may initially realize.

Of course, any thermostat will get the basic job done. You set it for the desired temperature and it will communicate that information down the line to the heating and cooling system. But the better the thermostat you’re using, the better the communication and coordination between the two devices will be. And many advanced thermostats come with all types of special features that can both enhance the quality of your indoor environment and save you some considerable money in the long run.

Saving Money with a New Thermostat

So how can a thermostat save you money? There are actually a couple of ways. For instance, an automatic thermostat can be programmed to switch your heating and cooling system on and off at different pre-set times of day. That means you can have the heat or air conditioning turned off during the day and still come home to a comfortable house. Simply set the thermostat to come on right before you get home and you’ll be able to walk into a perfectly temperature controlled environment without having to keep the heat on all day.

Automatic thermostats can come with other great features as well. For instance, you can set them up to maintain different temperatures in different parts of your home. That way, your home comfort system doesn’t have to work harder to keep your whole house warm or cool when only part of it is in use. And when your home comfort system is working less and using less energy, it will last longer so you won’t have to pay for repairs or a new system nearly as frequently as you might otherwise.

You’ll also pay less on your monthly energy bills the whole time, adding up to a great deal of savings. It might never have occurred to you that a new thermostat could save you so much money, but with all of these benefits, it’s definitely worth looking into.

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Inverter vs. Conventional Models

Wednesday, May 18th, 2011

When trying to pick out the right air conditioner for your home, you’ll probably stumble across mention of inverter technology. Air conditioners using inverter technology are quite similar to conventional air conditioners in many respects, but they have some distinct advantages under certain circumstances.

What’s the Difference?

A conventional air conditioner is set up to switch on when the indoor temperature reaches a particular level. When it comes on, it introduces cool air at a constant speed until the desired temperature is reached and then it shuts off completely. Your indoor environment remains more or less the same temperature, but you will be blasted periodically with a lot of cold air. While the air conditioner is off, the air in the room gradually warms up until the temperature gets high enough to trigger the air conditioning system to come on again.

An inverter, on the other hand, comes on powerfully at first to achieve the desired temperature, and then reduces its fan speed gradually to maintain that temperature without shutting off completely. This method of cooling maintains the desired temperature more consistently than a conventional system can. It also requires a lot of careful measurements, not only for how much cooling power is needed in your room, but for the speed at which the cool air will dissipate from that room.

Initial Installation

One big reason that more people didn’t opt for an inverter air conditioning system in the past was that the initial installation cost was often considerably higher than that of a conventional system. However, advances in the technology have made inverter air conditioners much more affordable in recent years. Digital programming, more accurate measurements and efficiency in every aspect of the field are responsible for the drop in price.

Savings over Time

While inverter air conditioning systems are still typically more expensive than their conventional counterparts when it comes to initial cost, they provide excellent savings over time that can more than make up for the difference in purchase price. This is particularly true in areas where air conditioners are not running at full blast constantly.

When they are both maxed out, a conventional air conditioner is more efficient than an inverter. But when the temperature is such that a conventional model would switch on and off all of the time, an inverter will easily outstrip it in terms of energy efficiency.

To ensure you get the right model for your home, carefully calculate the difference in installation costs, the amount of cooling your home needs and the current efficiency of your cooling system. If everything lines up perfectly, an inverter system may be right for you.

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How to Reduce the Load on Your Central Air Conditioner

Wednesday, May 4th, 2011

Your central air conditioner can handle a lot. It can keep your house cool and comfortable all summer long with only a minimum of maintenance. And if you have a newer, more energy efficient model, you probably are not even paying very much for this luxury. But no matter how good your air conditioning system is, it is always best if you can reduce its cooling load as much as possible.

Cutting down on the amount of work your central air conditioner has to do will save you money both in the short term and in the long term. You will be able to keep your house cool all summer while paying even less than you already do and you will help to extend the life of your system as well.

In general, reducing the cooling load that your air conditioner is responsible for involves keeping your house cooler by some other means. One great option when this is your goal is to have some ceiling fans installed. These help to circulate cool air and also create a breeze that can make it feel cooler even if the actual indoor temperature is the same.

With adequate ceiling fans in place, you will usually be able to turn up the thermostat on your central air conditioner and still be completely comfortable indoors. Turning up the temperature on the thermostat means that your air conditioning system will not have to work so hard because it will not have to get the indoor temperature down so low.

You can also reduce the indoor temperature in your house by blocking the sunlight that comes in and warms up the indoor air. Drawing the blinds, especially in those rooms that receive warmer afternoon sunlight will keep that sun from raising your indoor temperature. This, in turn, means that your air conditioning system will not have to work so hard to get the temperature back down.

You can also help to keep cool air inside and warmer air out by covering any doors and windows you are not likely to use with plastic. Also, check to make sure there are no cracks or drafts anywhere that may be letting in air from the outside or allowing cooler indoor air to escape. All of these things can make it possible for your air conditioner to keep your home cool without working so hard, and that will also mean that you will be paying less each month on your energy bills.

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