Posts Tagged ‘Kirtland Hills’

Tips to Make Your Ashtabula HVAC System More Efficient

Monday, April 23rd, 2012

Considering the fact that up to half of the energy used in a home goes toward heating and cooling the interior space, it is smart to make sound decisions regarding the heating, ventilation, and air conditioning system.  Below are some tips to make your HVAC system more efficient.

Regularly Maintain HVAC Equipment

Annual tune-ups of heating and cooling systems by an Ashtabula HVAC technician can easily improve system efficiency. Some of these steps include:

  • Ensure outdoor unit has proper ventilation, is free of debris or foliage growth, and is located in the shade
  • Check thermostat settings for comfort while home and to save energy while away
  • Tighten electrical connections and measure voltage and currents on motors
  • Lubricate all moving parts
  • Inspect and clean out the condensate drain on central air conditioning units
  • Check controls of the system for proper operation

Change Air Filters

Many air filters should be changed every three months, but some as often as every month.  Follow the manufacturer’s recommendation as well as simple common sense by checking the filters frequently during high-usage times and replacing as necessary.

 Seal All Household Ducts

Heating and cooling ducts can be huge energy wasters if they are improperly sealed.  These ducts can be in an attic, basement, crawlspace, or garage, and can be easily repaired with duct sealant, or metal-backed tape along seams and connections.  As well, wrapping the ducts in insulation will keep them from overheating in the summer or freezing in the winter.

 Install a Programmable Thermostat

A programmable thermostat can control how hot or cold a home is every hour of every day within a week.  During the summer they can be set to higher settings while residents are away on vacation, and during winter they can be set to lower settings while residents are away at work or school.  This is a great way to save on energy costs throughout the year, as keeping a more consistent house temperature also helps the HVAC system to run more smoothly.

 Install ENERGY STAR® Certified Equipment

When an HVAC system is more than ten years old, or if it no longer works properly it is probably time for a replacement.  Prior to replacing an entire HVAC system, it is prudent to check for air leaks in ducts, which can be a major cause for heating and cooling issues.  If it is determined that it is time for an Ashtabula air conditioning  professional to come in and install a new system, the savings in energy will be quite dramatic indeed.

Use any or all of the above tips will make your HVAC system more efficient, while saving you money throughout the peak seasons of heating and cooling usage. For any questions about the best upgrades to your HVAC system, give Apple Heating & Cooling a call today!

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Kirtland Hills Heating Installation Guide: Pros and Cons of Various Heating Systems

Wednesday, January 25th, 2012

When it comes time to install a new heating system in your Kirtland Hills home, there are a lot of options to consider. Many people get overwhelmed when confronted with all of the furnaces, boilers and heat pumps on the market these days. So, to help you get a handle on what each has to offer and which will offer you the best benefits, here is an overview of the modern heating system market.

Furnaces

Furnaces are the core of a forced air heating system and use gas, oil or electricity to heat air which is then circulated through your home by a blower in your air handler. Furnaces are among the most fuel efficient heating systems on the market today with options available at up to 95% AFUE (meaning it uses up to 95% of the fuel consumed to produce heat). They are also inexpensive to install and while they don’t last quite as long as boilers, they are highly efficient when well cared for.

Boilers

Boilers use gas, oil or electricity to heat water or steam which is then circulated through your home into radiators or baseboard heaters. The heated water or steam releases heat into your home and heats it in turn. While not quite as energy efficient as a high efficiency furnace, boiler heat is perfect for homes with existing radiators and no room for vents and ductwork. It also has less of an impact on indoor air quality since there is no air movement and boilers tend to last a very long time when well maintained.

Heat Pumps

Heat pumps are becoming increasingly popular, especially in milder climates where it rarely gets below 40 degrees F. A heat pump uses the same technology as an air conditioner to extract heat from outside using a compressor, evaporator coils, and condenser coils with refrigerant.

It is most efficient in the spring and fall when temperatures are mild, but it uses much less energy than either a boiler or furnace and it can be used in the summer to cool your Kirtland Hills home.

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Basic Heating Safety Tips: A Guide from Pierpont

Wednesday, January 4th, 2012

While you should schedule a yearly maintenance visit with a qualified HVAC technician to check for any safety concerns, you can also reduce potential safety hazards in the heating system of your Pierpont home. Whether you have a furnace, heat pump, or boiler, you can substantially decrease the chances of dangerous situations with a few minor routine tasks.

If you have any questions about how to better maintain your heating system, give Apple Heating and Cooling a call to speak with one of our expert HVAC technicians. Here are a few guidelines to get you started.

Ventilation in Forced-air Systems:

  • Regularly vacuum and clean out your heating vents and fan blower.
  • Check the condition of your chimney and vent pipe to make sure that none of the parts are damaged or show signs of deterioration.
  • Test the thermostat occasionally to make sure your heating system is working at optimal levels. There could be a safety concern if your heater is not properly heating your home.

Heat Exchangers:

  • Heat exchangers should be inspected often to prevent carbon monoxide leaks. Check for any obvious issues, such as rust or other damages.
  • The heat exchanger for furnaces should be inspected by a professional once a year in case there are hidden problems with the equipment, or if any of the components need to be replaced.
  • Check the pilot light in gas furnaces for any flickers or changes in color. Have someone turn up the thermostat while you watch the light, but turn off the system for five minutes first. If there are any changes, there could be a problem with the heat exchanger. Call a professional if you suspect issues with your heat exchanger.

Heating Equipment Inspections and Adjustments:

  • Boilers should be drained regularly to reduce sediment buildup, in addition to testing the water level safety controls. It’s best to have a professional perform these tasks if you aren’t sure how to do them on your own.
  • Adjust the temperature settings if you suspect that the heater isn’t working properly, and if it doesn’t work call a professional heating technician, or if you aren’t sure how to locate or adjust the controls.
  • Check the overall equipment for cracks, rust, or any other obvious signs of damage or deterioration that could create safety hazards.

In addition to performing these tasks, call a Apple Heating and Cooling licensed heating contractor to inspect your heating system at least once a year.

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Components of a Conneaut Geothermal Heating System

Monday, December 19th, 2011

A geothermal heating system for your Conneaut home 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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A Question from Kirtland Hills: Why Does My Furnace’s Pilot Light Keep Going Off?

Monday, December 5th, 2011

If you have an older furnace with a gas pilot light and it keeps going out, heating your Kirtland Hills home can become a frustrating process. Not only are you forced to trudge downstairs to light it every time you need heat, but you’re probably starting to worry that there is something wrong – either with your furnace or with your gas supply. Here are some possible reasons for your pilot light shutting off and what you can do about them.

  • Thermocouple – The thermocouple is used to generate electricity from the gas being burned by the pilot light to power the sensor that keeps the pilot light running. So, if the thermocouple goes bad or gets blocked in some way, the sensor won’t work properly and your pilot light won’t remain lit. Even a small problem with the thermocouple can lead to the valve closing and the pilot light going out.
  • Gas Pressure – If the gas pressure going to your furnace is too low, due to a leak, pipe problem or another appliance, the pilot light may not have enough gas to stay lit. While it is possible that the problem is not related to gas pressure, anything that affects the flow of gas into your home should be inspected by a professional. If you smell gas, leave the house and call your gas company immediately.
  • Mercury Sensor – The sensor in your pilot light that maintains the flow of gas to keep it lit can go bad. Keep in mind that these sensors almost always used to contain mercury (and often still do), so you should be careful with them. It’s best to call a professional who can replace and dispose of it properly.
  • Dirty Burners – Excess dust, lint, rust or sulfur build up can result in blockage of the burner holes. When this happens, gas will flood into the chamber but not light right away. When it does finally light, it will create a small boom or banging sound that will often put out the pilot light. Not only is this inconvenient, it is very dangerous. Fortunately, it can be avoided with annual cleanings of your furnace.

The best way to keep your pilot light lit at all times is to have someone inspect it once a year. If something happens in between, you can usually rule out cleanliness issues and call in a professional to check the thermocouple and sensor.

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Happy Halloween

Monday, October 31st, 2011

Happy Halloween! Candy and costumes make any day fun; we hope you have a fantastic time trick or treating! Remember to be safe this holiday, and don’t forget it is time to start thinking seriously about fall maintenance for inside and outside your house. A quick tune up of your heating system will save you some trouble during this holiday season!

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Different Types of Refrigerants Used in HVAC: A Tip From Leroy

Wednesday, September 7th, 2011

We have all heard the phrases in Leroy like “save the planet” or “save the ozone layer.” Up until the 1960s there wasn’t a lot of attention paid to the disintegrating protective ozone layer around the Earth’s surface. Since then, ozone-depleting CFCs (chlorofluorocarbons) have been seen as the ozone-depleting culprit and new laws regulating the use of CFCs have had a direct impact on heating and cooling (HVAC) systems.

The “lifeblood” of any air conditioning and heat pump system is its refrigerants – a chemical used in the refrigeration cycle. For several decades, the “refrigerant of choice” in HVAC systems has been HCFC-22, also known as R-22. The problem is, HCFCs (hydrochlorofluorocarbons) are harmful to the ozone layer because they contain ozone-destroying chlorine.

Because of this, the use of R-22 is being slowly phased out from usage in HVAC systems. The Clean Air Act of 1970 has provisions in it to phase out HCFC refrigerants. As a result, chemical manufacturers will no longer be able to produce, and companies will no longer be able to import, R-22 for use in new air conditioning equipment (effective this year),  but they can continue production and import of R-22 until 2020 for use in servicing existing equipment. So, R-22 should continue to be available for all systems that require R-22 for servicing for many years to come.

But the “new kid on the block” replacing R-22 has been getting up a head of steam for several years now. Among the new alternative refrigerants recommended by the U.S. EPA is R-410A, a blend of hydrofluorocarbons (HFCs) that does not contribute to depletion of the ozone layer, but, like R-22, contributes to global warming. R-410A is manufactured and sold under various trade names, including GENETRON AZ-20®, SUVA 410A®, Forane® 410A, and Puron®.

There are several other substitute refrigerants going by the names of R-407C, HFC-134A, and R-422C. A complete list can be found at www.epa.gov.

According to the U.S. EPA, homeowners with existing units using R-22 can continue to use R-22 since there is “no requirement to change or convert R-22 units for use with a non-ozone-depleting substitute refrigerant.” And it is important to note that R-407C is allowed for retrofits but R-410A is not, due to its higher working pressures. Substitute refrigerants would not work well with existing components unless a retrofit was made or in the case of using R-410A, a complete system changeout.

One of the leading causes for air conditioner and heat pump failure are lower levels of refrigerant. If you are working on your own equipment, it is important to note that replacing refrigerants like R-22 and R-410A should only be done by certified HVAC professionals. You must show EPA certification to purchase these refrigerants.

If you are interested in “saving the planet” you might do well to give the boot to your HCFC-consuming appliance.

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