Archive for January, 2012

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Parkland Heat Pump Repair Question: Why Won’t My Heat Pump Start?

Monday, January 30th, 2012

If you are having trouble with your Parkland home’s heat pump, you may be surprised to learn that it is probably not the heat pump that is to blame, especially if the trouble is that it simply won’t start up. That seems counterintuitive, but it’s true: the heat pump can be in perfect working order but still not turn on.

The good news, then, is that your heat pump is fine and you won’t have to pay an arm and a leg to fix or replace it. Still though, these types of problems can very frustrating to diagnose and correct. Here are four common culprits when a heat pump won’t start:

  1. No power to the heat pump. Check your breaker box to see if the circuit breaker was tripped. If so, reset it and see if that fixes the problem. Another possibility is that your heat pump is wired to a wall switch, or that there is a switch on the unit itself. Make sure the switch is turned on.
  2. Make sure the thermostat is set to the proper mode, such as “heat” mode if you desire more heat. It seems overly simple, but sometimes the trouble is as simple as that.
  3. A recently replaced thermostat. If you recently upgraded or replaced the thermostat in your home, it’s possible that something went wrong that is preventing your heat pump from starting. It may be the wrong kind of thermostat – heat pumps require a specific type – or it may have been improperly wired.
  4. Finally, the heat pump may have its own circuit breaker on the air handler cabinet. This is often the case with heat pumps that have supplemental electric elements. If that breaker is tripped, that could cause the problems you are experiencing.

If you exhaust these problems and the problem persists or recurs – for example, if the circuit breaker trips again – call a contractor to work on your heat pump. There may be something larger at work that is causing problems in the electrical system that controls your heat pump, and that requires some expertise to properly address.

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Fisherville Heat Pump Guide: Load Calculation

Friday, January 27th, 2012

When purchasing a heat pump, the first thing you should do is determine what type of heat pump you want and how big it needs to be to provide ample heating and cooling to your Fisherville home. If you’re unsure what you need, here are some tips to size a heat pump for your home’s particular needs.

The Importance of Sizing

Before buying anything, consider the cost of an oversized heat pump. A lot of homeowners opt for the biggest device on the market, but they don’t realize that they’re paying more than necessary for their device. An oversized device cycles on and off more often than is necessary and wears down much faster, resulting in an increased electric bill and faster wear on the device. It’s not good for your heat pump or your wallet.

How to Size

To correctly size a heat pump, the first step is to perform a load calculation. This is done by measuring the total volume of the rooms being heated (in cubic meters) and then determining the heating factor based on the type of insulation used.

There are different measurements depending on the type and R-rating of your insulation. For example, a single external wall without any additional insulation has a heating factor of 15. The number of external walls, the insulation in those walls and/or the ceiling and the rating of the insulation will determine the total heating factor for the room.

You will then divide the room volume by the heating factor to determine the number of KW (converted to BTUs) needed to heat that particular room.

Professional Sizing

The reason it is so important to call a professional is that certain things, like poorly insulated windows, cracks in the foundation, leaks in the ducts and other issues can have an impact on the overall heating factor measurement. Additionally, the type of heat pump you choose must be effective when connected to an air handler for your entire home. A professional can make these measurements and ensure the right sized device is selected.

If you’re unsure about anything related to sizing and selecting a new heat pump for your home, call a Fisherville professional in. They will perform a full load calculation and present your options for a new heat pump based on those calculations.

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Heat Pump Installation Question: Do I Need Supplementary Heat?

Wednesday, January 25th, 2012

People often turn to heat pumps as a solution for their New Albany home heating and cooling needs because they want a single, all-inclusive system that covers all the bases. The convenience and simplicity is part of the allure of choosing a heat pump to begin with.

However, it’s not always that simple. There are situations where a heat pump is not enough to handle the needs of the whole home. This doesn’t necessarily mean that the whole idea goes out the window, but the heat pump may need some help in the form of a supplementary heating supply.

Here are some reasons/situations that may call for a supplemental heat source in addition to a heat pump:

  1. A Cold Climate – Although heat pumps can serve as the primary heating system when temperatures drop as low as 30 degrees Fahrenheit, they have trouble keeping up when the cold snap lasts longer than a few days. In any climate where temperatures dip below this mark for a length of time, a supplemental heating system is recommended.
  2. A Large Home – Heat pumps come in many different sizes, but if yours does not have the capacity to match the size of your home, then it won’t be able to heat the whole house. It’s as simple as that. If you are installing a new heat pump, be sure to get one that is properly sized. But, if you have an existing heat pump that is overmatched by your home’s size, simply supplementing it may be the easiest solution.
  3. The Power Goes Out – A heat pumps’ use of electricity is a benefit in most situations, but unfortunately it means they are helpless when the power goes out. To avoid suffering in the winter chill when a blizzard takes out a local power line, have a backup/supplemental heat source on hand to use until the power comes back on.

Those are a few situations you may encounter in which supplementing a heat pump is a good idea. Remember, though, that each situation is different. When installing a new heat pump, consult with the professional installer beforehand to see if you should also have a supplemental heat system in addition to the heat pump. This is especially important if you live a cold climate.

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Valley Station Heating Guide: Signs of an Oversized Furnace

Monday, January 23rd, 2012

Most people in Valley Station, when they choose a new furnace, think that “bigger is better”. However, an oversized furnace can present just as many if not more problems than an undersized furnace. So, if you feel you may have overdone it in the past or you want to avoid making a mistake in the future, here are some signs that your furnace may be oversized.

Short Cycling

The most common sign of oversizing is short cycling. Short cycling occurs when your furnace turns on and off frequently because it reaches the thermostat setting so fast. Basically, your furnace is so powerful that it can produce what you need rapidly and then shuts off. But, because it does this, the temperature in your home is likely to cool much faster as well since the furnace isn’t on all the time.

Additionally, the on and off short cycling has a negative effect on your furnace, causing excess wear and tear on the system and eventually leading to extra repairs and in some cases early replacement.

High and Low Temperatures

When your furnace is turned on for a comfortable indoor temperature like 70 degrees F, the high and low temperature between cycles should be relatively close to that temperature. In an ideal situation, you shouldn’t even notice a fluctuation.

So, if the high temperature gets close to 75 degrees F and the low temperature is around 66 degrees F, you have a furnace much too large for the size of your Valley Station home.

Furnace Room Issues

You might find that the space and exhaust given for the furnace are not sufficient either, especially if your previous furnace was replaced with this oversized unit. Backflow of a gas or oil smell or excess heat in and near your furnace room are both common signs that the furnace is much too large.

So, what should you do about your oversized furnace? If you have had that furnace for some time or just moved into a new home, it’s a good idea to have a new one installed. Have a proper load calculation done and then get a new furnace installed so you don’t have to worry about the system cycling on and off so often. If it’s a newer unit, call your technician and discuss possible options to reduce the negative effects of the miscalculation of its size.

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5 Reasons to Replace the Furnace in Your Fairdale Home

Friday, January 20th, 2012

Many Fairdale homes are heated with furnaces, since they generally provide safe and efficient heat.  Furnaces have also improved dramatically over the years as manufacturers find ways to make them more efficient. Even if your furnace has been reliable for many years, it may be worth the money to replace your old furnace with a newer, more efficient model.

Here are five major benefits to upgrading your furnace.

1. Lowering Your Utility Bills

Whether you realize it or not, your current furnace could be costing you more than it should in heating bills. If your furnace is 15-20 years old, it’s probably not heating your home as efficiently as the newer models with higher AFUE ratings. Even if your heating system has been replaced within the last ten years, the technology has advanced enough to consider an upgrade.

2. Fewer Repairs

Repair costs can add up if you are constantly repairing your furnace. Routine maintenance for your furnace can help reduce the need for repairs, but as furnaces age, they tend to need more repairs and replacement parts. If you need frequent repairs for your furnace, it may be time to replace it with a newer one.

3. More Consistent Heat

While maintaining consistent temperatures throughout your home involves several factors, such as insulation and thermostat control, your furnace could also be the reason you aren’t getting enough heat to all parts of the house. If some rooms are colder than others, or if your heating bills have recently gone up, it may be time for a furnace replacement.

4. Reduce the Chances of a Breakdown

When a furnace breaks down, it not only leaves you without heat, but it is also a major expense. Budgeting for a new furnace before it breaks down will put less financial burden on you than needing an emergency furnace replacement. Newer model furnaces are also more reliable and less likely to give you problems if maintained properly.

5. Safety

There’s higher potential for safety concerns with older or poorly maintained furnaces. In addition to fire hazards, carbon monoxide poisoning is another serious threat. When the heat exchanger stops working because it’s corroded or faulty, carbon monoxide can leak into the home. If you’ve had your furnace for more than 20 years, it could create safety hazards that you may be unaware of.

No matter how long you’ve had the furnace in your Fairdale home, it’s always wise to speak with a qualified HVAC technician about furnace upgrades, particularly if you have expensive heating costs. Call us today to talk with one of our heating experts about furnace upgrades.

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Prospect Heating Replacement Guide: System Ventilation 101

Wednesday, January 18th, 2012

Maintaining Proper Ventilation for Combustion Systems

Anytime you maintain, retrofit, or replace a gas heating system in your Prospect home you also need to be concerned with air quality. Combustion air is needed by all oil and gas heating systems to support the combustion process. This air is provided in some homes by unintentional air leaks, or by air ducts that connect to the outdoors. The combustion process creates several byproducts that are potentially hazardous to human health and can cause deterioration in your home. You can protect yourself from these hazards, as well as maintain energy efficiency, by ensuring that your chimney system functions properly and that your gas heating system is properly ventilated. In some cases, installing a sealed-combustion furnace can also help.

Chimneys

Properly functioning chimney systems will carry combustion byproducts out of the home. Therefore, chimney problems put you at risk of having these byproducts, such as carbon monoxide, spill into your home.

Most older gas furnaces have naturally drafting chimneys. The combustion gases exit the home through the chimney using only their buoyancy combined with the chimney’s height. Naturally drafting chimneys often have problems exhausting the combustion gases because of chimney blockage, wind or pressures inside the home that overcome the buoyancy of the gases.

Atmospheric, open-combustion furnaces, as well as fan-assisted furnaces, should be vented into masonry chimneys, metal double-wall chimneys, or another type of manufactured chimney. Masonry chimneys should have a fireclay, masonry liner or a retrofitted metal flue liner.

Many older chimneys have deteriorated liners or no liners at all and must be relined during furnace replacement. A chimney should be relined when any of the following changes are made to the combustion heating system:

When you replace an older furnace with a newer one that has an AFUE of 80% or more. These mid-efficiency appliances have a greater risk of depositing acidic condensation droplets in chimneys, and the chimneys must be prepared to handle this corrosive threat. The new chimney liner should be sized to accommodate both the new heating appliance and the combustion water heater by the installer.

When you replace an older furnace with a new 90+ AFUE appliance or a heat pump. In this case, the heating appliance will no longer vent into the old chimney, and the combustion water heater will now vent through an oversized chimney. This oversized chimney can lead to condensation and inadequate draft. The new chimney liner should be sized for the water heater alone, or the water heater in some cases can be vented directly through the wall.

Other Ventilation Concerns

Some fan-assisted, non-condensing furnaces, installed between 1987 and 1993, may be vented horizontally through high-temperature plastic vent pipe (not PVC pipe, which is safely used in condensing furnaces). This type of venting has been recalled and should be replaced by stainless steel vent pipe. If horizontal venting was used, an additional draft-inducing fan may be needed near the vent outlet to create adequate draft. Floor furnaces may have special venting problems because their vent connector exits the furnace close to the floor and may travel 10 to 30 feet before reaching a chimney. Check to see if this type of venting or the floor furnace itself needs replacement. If you smell gases, you have a venting problem that could affect your health. Contact your local utility or Prospect heating contractor to have this venting problem repaired immediately.

Chimneys can be expensive to repair, and may help justify installing new heating equipment that won’t use the existing chimney.

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Happy Martin Luther King Day from Your Louisville Area Heating and Air Conditioning Contractor!

Monday, January 16th, 2012

Happy Martin Luther King Day! Take some time today to think about how you, like Dr. Martin Luther King Jr., can serve your community. There are hundreds of things you can do to make the world a better place, from helping a neighbor to volunteering for your local homeless shelter. Everyone doing a little bit of extra service can make a big difference!

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Lyndon Heating Installation Question: What is an Electric Furnace?

Friday, January 13th, 2012

There are many types of furnaces that use a variety of energy sources to operate that you can have in your Lyndon home. Gas furnaces use natural or propane gas, boilers and radiators use water, heated by electricity. And then there are electric furnaces, which may have an advantage over other energy sources based on energy costs.

Simply put, electric furnaces function through the use of electricity. They do not require the use of any type of fuel – but function through wires and chords. An electric furnace uses heating coils, sometimes referred to as “resistance calrods” to create heat directly in the air flow. Inside the furnace cabinet are controls, a blower, and the circuit breakers for the heating elements. Some furnaces have the breakers accessible from the outside of the cabinet.

Other add-on accessories may include an electronic air cleaner, air filter, humidifier, high performance media filter, and air conditioning evaporator coil.

The heating process begins with the home’s thermostat. A drop in temperature is sensed by the thermostat, which alerts the electric furnace. The coil then warms up, thanks to the electric current that passes through it. The heated coil in turn heats the temperature of the air around it, which is then blown into the house through a blower. The pressure that is exerted by the blower on the heated air, warms it further. The blower is able to overcome the resistance of the duct work and replace unheated, colder air with the heated air. In most homes there are various return air ducts that are used to bring in the colder air to the furnace. This cold air travels through the furnace, through an air filter, the blower, and finally through the heat exchanger. After this it will then be pushed back into the house as warm air.

To maintain a supply of fresh air in the house, some furnaces also suck air from the atmosphere outside. After the air in the house reaches a particular temperature, the thermostat automatically shuts off the electric furnace.

An electric furnace may be less costly to run, depending on the price of electricity versus other sources like natural gas, propane gas, or oil. Gas and oil are fossil fuels and burning them leaves a “carbon footprint” – the release of carbon compounds and gases into the atmosphere. An electric furnace does not burn fuel and thus does not leave a carbon footprint. This electric warming process results in fewer particulates and contaminants in the air, too.

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Belknap Heating Repair Guide: Gas Furnace Draft Pressure Switch

Wednesday, January 11th, 2012

There are many reasons why a furnace stops working and in many cases, a Belknap 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 Belknap 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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Anchorage Heating Contractor Tip: The Beauty of Zone Heating

Monday, January 9th, 2012

While it might not technically be a necessity, there are a lot of reasons why you might want to look into having a zone heating system installed in your Anchorage home. Whether you’ve been using the same home heating system for a long time or are looking to have a new one installed, there’s never a bad time to have a zone heating system put in.

Most people think that the only thing that affects their home heating and cooling bills is the energy efficiency of their furnace or heat pump. However, that’s simply not always the case. Certainly, the more efficient your furnace or heat pump is, the lower your energy bills will be. But that doesn’t mean they’re as low as they could possibly be.

After all, if you don’t have a zone control system installed, you’re paying to heat your entire house every time you turn on the heat. Depending on the size of your house, that could mean you’re heating anywhere from two to 10 rooms or more that are unoccupied at the time. In fact, you could be paying to heat an entire empty wing of your home. And while you’ll pay less than you would if your heating system was less efficient, you’re still paying more than you need to.

With a zone control system, you can heat your home much more efficiently because you can control which areas of the house get the heat and which ones don’t. You can set multiple different temperatures for the different zones of your home, which allows you to keep the occupied areas warm while not forcing you to waste energy to heat unoccupied spaces.

Aside from the economic benefits of only heating the areas of your home that you need, zone control systems also can put an end to some of those contentious thermostat wars that go on in so many households. If the members of your household can never agree on what a comfortable temperature is, they can simply each set their own temperature for their own area of the house.

That way, everyone is happy and no one has to suffer uncomfortably. After all, you paid a lot for your state of the art home heating system. It’s only fitting that you should be able to get the most possible out of it.

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