Posts Tagged ‘Air Conditioning’

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Dallas HVAC Tip: Heat Pump Air Duct Requirements

Monday, April 2nd, 2012

Between the concerns about climate change and the rising costs of energy production and consumption, there is a lot of experimentation with new technology.  Standard choices are being re-evaluated and new designs are changing the requirements for various parts.

In homes and other buildings where systems were designed and installed according to the cheaper energy parameters prevalent in the day, it may be time to consider drastic changes to increase the efficiency and decrease impact on the carbon footprint.  Room for improvement can be found in many corners.

Heat Pump Technology

Among the systems getting a fresh look are heat pumps, a device that transfers thermal energy from one location to another, usually in the direction of from a colder temperature to higher and generally the opposite of the natural flow.  While compressor-driven air conditioners and freezers are technically heat pumps, heat pump is the term that usually implies one of the less-common devices in the class that are not dedicated to refrigeration-only.

A heat pump that maintains a thermally conditioned-space can be used to provide either heating or cooling, depending upon whether the environment is cooler or warmer than the conditioned-space.  Typically pumps utilize some thermal energy from the environment itself.

By simply transferring the energy rather than producing it, Dallas heat pumps are being more seriously considered as attractive alternatives to provide an efficient and clean system for conditioning public and living spaces.

Change of Use

In considering a change from an existing system to a heat pump, there are many details to compare to see if it makes any sense at all.  Since a heat pump typically moves conditioned air through ductwork, the advantages of the change are much more realistic with a system of pre-existing ducts such as a forced air furnace or central air-conditioning unit.  While a heat pump often requires a larger volume of ducts, the old network of metal tunnels was often over-sized for inefficient furnaces and should do fine in a conversion to a heat pump.

The Right Data

Since the required formulas are dependent upon variables such as size, distance, volume and oomph, the design is strategic and makes all the difference.  Consulting with a trained and experienced professional such as A#1 Air is critical to the success of the conversion to a heat pump in Dallas.

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The Room by Room Benefits of Ductless Splits AC: A Guide from Duncanville

Sunday, October 16th, 2011

Ductless splits air conditioners are designed to eliminate the need for ductwork in your Duncanville home where space is at a premium. Usually homeowners with older homes – those built before the 1970s – have very little space to work with when it comes to installing the ductwork a traditional central air conditioning system requires. These homes are often heated with radiant boiler systems and have window units to provide cooling in warmer weather. As a result, cooling costs can be extremely high each summer and the house usually isn’t comfortable during these months.

Ductless air conditioning offers a solution to most of these problems. Not only does the technology not require ductwork to be installed; it allows for multiple in-room units on a single compressor and it costs significantly less to operate compared to window AC units.

Ductless System Specifications

Ductless air conditioning systems consist of two major components: a compressor which is placed outside and indoor evaporators. With the use of inverter technology, these systems can support multiple evaporators – usually as many as four to a single condenser. This means you can have a single outdoor unit supporting cooling four separate rooms of your home at the same time.

Each of those indoor evaporators acts as a heat pump, allowing you to both heat and cool the room year round. And because the only connection needed between evaporator and condenser is a single refrigerant line, the cost of installation is significantly lower than it would be for a ductwork based central AC system.

Room by Room Benefits

While the primary benefit of a ductless system is the fact that it allows you to install air conditioning in multiple rooms of your house without the need for ductwork, there are other benefits. Not only do you get a much higher energy efficiency rating than you would with traditional window units (many ductless systems are rated at 16 SEER or higher while window units are frequently as low as 10 or 11), but you can control each unit individually. So if a room upstairs doesn’t need to be cooled during the afternoon hours, simply turn off the thermostat in that part of the house and save money.

There are some factors to consider when installing a ductless system. How many rooms do you need cooled? How warm does it get in the summer? Will the system be used for heating in the winter? These are all things you may want to discuss in greater detail with your contractor when you call for an estimate.

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The Ins and Outs of Ductless Splits Air Conditioning: A Guide From Allen

Thursday, October 6th, 2011

So, it’s time to install a new air conditioner in your Allen house and you’re pretty sure there just isn’t enough room in the walls or ceilings to place the necessary ductwork. No problem. There is a rapidly evolving technology that allows you to have air conditioning without ductwork. It’s called mini-split ductless air conditioning and it relies on individual units placed in key locations around your house. Here’s how they work.

Multi-Zone Cooling

The first step is to install a central unit. This is your compressor and condenser and is usually placed outside like the core of a central AC system. These units range between 15,000 and 40,000 BTUs depending on how much cooling your home needs and will support up to 4 zones within your house.

Once the central unit is installed, smaller room-sized units are placed throughout your house. These units are designed for between 9,000 and 18,000 BTU spaces and are usually placed high on the wall of your room to distribute cooled air. The smaller units are connected to the main unit by refrigerant lines that are run up the side of your house (or inside if you want them out of the elements).

Because each indoor unit is individual and has its own thermostat, you save electricity by having direct control over each part of your home. In fact, the average ductless split system uses something like 30% less electricity than a standard air conditioning system.

Is it Right for You?

This is the most common question we hear and to be honest, it really depends on your needs. If you have a large house – we’re talking 3,000 square feet or bigger, a multi-zone ductless system may not provide enough cooling on its own. Most systems only support up to 4 individual units and therefore cannot cool massive spaces. However, if you have a smaller home, or more importantly have no space for ductwork, these systems are much more efficient than installing multiple window units.

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What is R410A? A Question From Southlake

Tuesday, October 4th, 2011

If you’ve recently started researching a new air conditioner for your Southlake home, you may have run across “R410A” – a newer form of refrigerant increasingly being used in high end air conditioning equipment. What is R410A and why is it different from the existing refrigerant most air conditioners have?

Chemical Composition

R-410A is a composite of diflouromethane and pentafluoromethane. This mixture of R-32 and R-125 creates a new compound designed to be used in commercial and residential air conditioning devices. Sometimes referred to as Puron, Genetron and EcoFluor, R-410A is a more environmentally friendly approach to cooling than the existing coolant most air conditioners use – R-22.

To date, R-22 has been the refrigerant of choice for millions of devices. However, because R-22 will no longer be permitted in new devices starting in 2020, R-410A is growing in popularity rapidly and will soon become the standard refrigerant option in new devices.

Environmental Impact

Despite being very similar in chemical composition to other refrigerants like Freon and R-22, R-410A does not contribute to ozone depletion, a major step forward for air conditioning. However, it has as very similar global warming impact – producing nearly 1725% more damage than carbon dioxide. One of the factors that negates this high global warming risk is the fact that R-410A is being used in a more efficient manner than past refrigerants.

Choosing R-410A

You cannot simply replace the R-22 in your cooling system with R-410A. Because it requires higher pressure, the devices that run with R-410A must be built specifically for this refrigerant. As a result, many manufacturers are starting the transition to the new refrigerant now, in anticipation of the 2020 phase out date for R-22. If you are preparing to buy a new unit, keep this in mind. You can still buy R-22 devices, but they are not as environmentally friendly as this newer form of refrigerant.

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How Do EER and SEER Work? A Question From Coppell

Tuesday, September 27th, 2011

If you’ve looked for a new air conditioner in Coppell recently, you probably noticed each unit comes with an EER or SEER rating. The former is for room air conditioners and the latter for central air conditioning units. In both cases, the number is a measure of how efficiently the system uses electricity. Effectively, if you buy a system with a high rating, you spend less on electricity. Of course, there are tradeoffs. The higher rated machines tend to cost much more, so as a homeowner, you’ll have to evaluate how much you can spend now and how long it will take to save money from that investment.

How EER and SEER Are Measured

These numbers are required by the government to tell you, the consumer, how many BTUs per hour the device can use for every watt of electricity drawn. The more BTUs a system can use, the better for your bill.

Let’s say you want to buy a 10,000 BTU system to cool your living room and dining room. A pretty standard number for a single room unit is 11, meaning the 10,000 BTU system would use about 900 watts per hour to run at full capacity. We figure this out by dividing the BTUs (10,000) by the watts (900).

There is a lot of math to do here, so many people simply look for a higher number within their price range. But, at what point is the upgrade really worth your extra money?

Choosing the Right Energy Efficiency Rating

The easiest way to describe this is to compare two similar devices with different EERs:

Air Conditioner 1 Air Conditioner 2
BTUs 12,000 12,000
EER 9 11
Watts 1333 1091
Price $300 $450

In this particular case, we can spend more for a device that is the same size but uses less electricity. The question then is whether that increased expenditure will pay off in the short term. Let’s assume each device would be operated for 10 hours per day for 30 days in a typical summer month. That’s 300 hours of operation. If the average cost per kWh in you are is $0.09, it will take 4 hours for the first air conditioner to consume 1 extra kilowatt of electricity equal to an additional $0.09. If your air conditioner runs for four months out of the year, we know that it will operate for a total of 1200 hours. That means:

[(1200 hrs x 242 watts) / (1000 watts/kw) ] x $0.09/kWh = $26

So, you save roughly $26 per year from that high efficiency unit. With a $150 price difference, you will break even after 6 years (though probably sooner if the price of electricity goes up).

Don’t forget, however, that central systems are a much more efficient option with SEERs of up to 16.5 and much larger BTU areas to cover. The savings there can add up very quickly.

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Choosing an Environmentally Friendly Refrigerant for Your Air Conditioner in Grapevine

Sunday, September 25th, 2011

For years in Grapevine, we heard about how bad air conditioners were for the environment. Specifically, the liquid used in them to remove heat from air in your home tended to eat holes in the Ozone layer. Today however, air conditioners (along with every other appliance or device that uses refrigerant) have been upgraded to work with newer, better chemicals.

R-22 Refrigerant

While R-22 refrigerant is still used in devices sold today, it is being gradually phased out. According to the Montreal Protocol, R-22 refrigerant will no longer be allowed in new devices as of January 1, 2020 in the United States (though it can be used to service existing devices via recycled or reused refrigerant). While the most environmentally damaging refrigerants such as HCFC-141b have been removed from the market, R-22 is still considered harmful to the environment if allowed to enter the atmosphere.

R-410A Refrigerant

So, if R-22 will soon not be permitted (and is not an environmentally friendly option), what is? Currently, the most common refrigerant used in new residential air conditioners is R-410A. After the Clean Air Act was passed, the EPA reviewed a number of refrigerants to determine which were the least damaging to the environment (and human health) and which could be used as alternatives to R-22. At the top of the list is R-410A, a blend of different HFCs that don’t deplete the ozone. Sometimes called Puron, Forane, or Genetron AZ-20, R-410A is a good choice if you’re having a new system installed.

Other Alternatives

Of course, because R-410A is a hydrofluorocarbon, it does contribute to global warming and therefore is a risk to the environment, albeit in a much smaller capacity than older refrigerants. Recently, the EPA approved the use of HFO-1234yf – a chemical that pollutes 99.7% less than the current refrigerant used in car air conditioners. Whether it will be used in homes and commercial spaces remains to be seen, but the technology is advancing rapidly, allowing us to stay cool without sacrificing our planet’s health and future to do so.

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Alternatives to Air Conditioning in Your Southlake Home

Thursday, September 22nd, 2011

Let’s face it – we rely pretty heavily on air conditioning to keep us comfortable during the warmest months of the summer in Southlake. So, what do you do when the mercury dings 90+ and your air conditioner is either broken or you are in a place without AC? Luckily, there are alternatives. Here are some of the better options:

  • Move Air through the House – As simple as it sounds, air circulation can have a huge impact on the temperature inside, especially in the late afternoon. Mid-afternoon sun will hit your roof no matter how many trees you have planted. The result is a decent amount of heat pouring into your home. But, if you open the windows and let a cross breeze through, amplifying it with fans, especially ceiling fans, moving air will carry that heat out of the house later in the day when the temperature drops.
  • Block Direct Sunlight – Unless it’s 90+ degrees outside, most of the discomfort in heat comes from direct sunlight. Block that direct sunlight and you severely reduce how warm it might get in your home. Trees planted along western, eastern and southern walls do this very effectively, especially if they are deciduous and will allow in the warming sun in the winter.
  • The Power of Water – Feel warm? Get some cool water and place it on your forehead, arms or legs. A bowl of cool water in front of a fan can be soothing as well, assuming humidity isn’t a problem.

I’m sure we’d all rather have a comfortably air conditioned room to lounge in during the hottest months of summer, but in lieu of electric powered comfort, keep in mind the simple, effective ways people have been staying cool for centuries.

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Basic HVAC Terminology: A Tip From Frisco

Tuesday, September 20th, 2011

Ever try to look up basic information about your Frisco home’s heating and air conditioning systems? There are dozens of terms that might as well be Greek for all you know – a mishmash of words and phrases talking about energy efficiency and air flow ratios. To make your next upgrade a little easier and give you a baseline with which to work, here are a few of the most common HVAC terms you’ll hear in the industry:

  • AFUE – Annual Fuel Utilization Efficiency – This is a simple measurement of how much fuel a furnace converts into actual heat in your home. So, if a furnace converts 92% of the fuel it consumes into heat, it has an AFUE rating of 92.
  • Watts – A single watt is a measurement of electricity. Commonly, your electricity use is assured in kilowatts or kilowatt hours (kWh).
  • BTU – British Thermal Unit – A BTU is a common measurement of how much energy is produced or consumed by an appliance. When referring to an air conditioner, one “ton” refers to 12,000 BTUs.
  • SEER/EER – Seasonal Energy Efficiency Ratio refers to how many BTUs can be produced with a single Watt of electricity per hour. So, an air conditioner with an SEER of 14 can produce 14 BTUs of cooling per watt consumed each hour.
  • HSPF – Heating Seasonal Performance Factor – Refers to the efficiency of the heating elements in your heat pump.
  • COP – Coefficient of Performance – A measurement of how effective your heat pump is at heating a space compared to standard electrical resistance heat. The lower the temperature gets outside, the lower the COP will be. Equipment is usually measured for COP at 47 and 17 degrees to give an idea of seasonal performance of a new heat pump.
  • Refrigerant – Refrigerant is any gas that is used to draw heat from the air in a particular environment through an air conditioner or heat pump. It has a much lower boiling point than water, allowing it to cool despite the temperature outside. Currently, most equipment uses R-22 refrigerant while the new standard will be R-410A (Puron), legally required in all cooling units by 2020.
  • CFM – Cubic Feet per Minute – Used to measure the volume of air passed through an air handler by an air conditioner or furnace.

There are a number of complicated details to keep track of when choosing a new air conditioner or furnace. To ensure you get the very best out of your system, read up on these details in advance – you’ll feel a heck of a lot smarter when you call.

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What is a Matched HVAC System? A Question From Corinth

Sunday, September 18th, 2011

It has been about 200 years since the arrival of interchangeable parts during the Industrial Revolution. Today in Corinth, we laud being able to take a malfunctioning part from a car, computer or vacuum cleaner, replace it with a newly minted part from any number of manufacturers, then keep right on plugging along.

Although this is a blessing in most arenas, when it comes to an HVAC system, it is not necessarily a good practice. Heating and cooling systems work best when they are matched – but what does that mean? And why does it matter?

Why Matched Parts Matter in HVAC Systems

When referring to HVAC systems, a matched system is one in which various components are designed to work together. For example, an air conditioner and furnace made by the same manufacturer can be matched, as can a furnace and a heat pump.

Typically, the matching is done in such a way that the “outdoor” components, such as air conditioners and heat pumps are designed to work best with their “indoor” partners, like air handlers and furnaces. There are also matched systems in which every component is matched to every other.

Efficiency Boosts

While this may seem to make maintenance and repairs a pain, the practice provides a big boost to the efficiency of the system. Because the components were designed and manufactured by the same team to work in harmony, the system performs optimally. Although you can often replace one component of a matched system with one from another manufacturer and have it work fine, the system can lose efficiency, often to a significant and noticeable extent.

For these reasons, it is best to make use of matched systems in your home whenever possible. This means choosing a new matched system to install, replacing broken parts with ones that match the rest of the system and even replacing older systems with newer ones to properly match, when necessary.

It may seem like a hassle at first, but it saves money in the long run by adding increased efficiency over unmatched systems.

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AC As a Safety Feature in the Home: A Guide From Euless

Sunday, September 4th, 2011

Ask a hundred people in Euless what the primary role of air conditioning is and I’ll bet you they say “comfort”. We seek out AC to stay cool and beat the summer heat, but did you know your air conditioning is a lot more than just a convenience – it is a safety feature in the midst of heavy heat waves.

Heat Is More than Just Uncomfortable

We tend to think of heat as this massive, uncomfortable inconvenience. In reality, it is quite dangerous. According to the Center for Disease Control, heat waves killed 8,015 people between 1979-2003, more than hurricanes, tornadoes, lightning, earthquakes and floods combined in that time period.

Why is heat illness so dangerous? It comes on quickly and it’s easy to ignore the warning signs, especially when you are already uncomfortable. While hydration is important, the real risk occurs after you’ve become dehydrated – when your body can no longer keep itself cool. This is known as heat stroke and can lead to a number of life threatening conditions, especially for the elderly, infants and those with chronic conditions.

That’s where air conditioning comes in. On the CDC’s extreme heat preparedness webpage, air conditioning is listed as the number one preventative factor against heat related illness. Simply put – if you have an air conditioner, there is a much smaller chance you will get sick from the heat. Dehydration happens less frequently when you’re in an air conditioned environment, meaning that your body can regulate temperature internally and you feel comfortable – not a bad deal for a simple installation.

Staying Cool Is a Medical Necessity

Heat is more than just a direct threat. It addles the mind and makes your reaction times slower. In effect, by allowing your body to overheat, you put yourself at risk. Simple tasks like climbing a ladder or taking out the trash could result in an injury because you don’t have the energy or the mental clarity to perform them as you would on a normal day.

So, air conditioning is about a lot more than just staying comfortable – it’s a health issue. Especially if you have small children or elderly adults in the house or if anyone in your family has a medical condition like obesity, heart disease, mental illness, poor circulation, an air conditioning system is an absolute must during heat waves.

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