Saturday, November 30, 2013

Carrier Air Conditioning Units - The Leaders in Air Conditioning


Carrier air conditioning units are the leaders and pace setters in the field of residential air conditioning. The Carrier Corporation is the largest manufacturer and distributor of air conditioners. The company was founded by Willis Carrier, who went on to make a ground breaking invention, by developing the first air conditioner for residential use. As a result, today he is known as the father of air conditioning. In order to truly understand what makes carrier air conditioning units stand above the rest, you will need a little about how an air conditioner works.

An air conditioner is made up of two main sections, a condenser and an evaporator coil. A refrigerant gas is compressed and cooled within the condenser; this gas then goes through the evaporator coil, cooling the air around it; the cool air is then blown out into the room, thus cooling it. In the past Freon was the gas used. This gas was helping to destroy the ozone layer and so the gas was changed to R-134a or Puron which is environmentally safer. This gas basically did what the Freon did, but it requires more pressure. This is where Carrier air conditioning units stand out; they are equipped with compressors which have been specifically designed to tolerate the high pressure required. As a result you can be confident that the compressor will be fully operable during the life of carrier units. Compressors are the most expensive part of a unit, hence the durability and reliability of the compressor is important. In addition Carrier air conditioning units and compressors are backed with a 10 year warranty.

Carrier Corporation has a wide variety and a great number of models of Carrier units for you to choose from; from the small portable in house and window units to the industrial Carrier compressor. With over 100 years in existence they have been continuously perfecting the design of their air conditioners every since their ground breaking invention of residential air conditioners. They supply three main series central air conditioners; the advanced infinity series which has the highest efficiency in air conditioning and hence the most expensive, and the Performance and Comfort Series, which were designed to provide efficiency that anyone can afford with great comfort.

The Infinity Series was specifically designed to be the best, having Seasonal energy efficiency ratio (SEER) rating as high as 21, an indication that this is one of the most energy efficient cooling system. The Performance Series Central Air Conditioner is made to be reliable, having a SEER rating of up to 18 and giving you great service by operating quietly. The Comfort Series Central Air Conditioner is very economical, reliable, quiet and efficient. This series is available with an SEER of up to 17, and due to it Weather Amor louvered coil guard, it will definitely be providing you with great service for many years to come.

If you are considering Carrier air conditioning units, it is always good to have up to date knowledge about their products as their innovative minds are always producing products at top notch level. The more you know about their products the easier it will be for you to choose the one that's right for you.

14 Things You Should Know About Air Conditioning


1. My home summer air conditioning bill is bigger per month than the winter heating bill per month. Traditional air conditioning is less efficient than heating and natural gas is less expensive than electricity.

2. Air conditioners have two motors that use electrical power. The compressor is the machine that makes the refrigerant cool the air. The other motor drives the fan that moves the air. Motors are energy hogs.

3. Every degree that you set your thermostat below 78 increases your air conditioning cost by 3 to 4%.

4. While your AC is working normally, you should feel the amount of airflow from your window unit or register for central units. You need to know what is normal to be able to trouble shoot problems.

5. Use a thermometer to check the room temperature and the temperature of the air that the AC is putting out. The air coming out of the AC should be about 20 degrees F cooler than the room temperature. Make a note what the difference is. This is good trouble shooting data for future use.

6. Air conditioning reduces the water vapor in the air turning it into liquid water. This makes us more comfortable by lowering the humidity in the home. The condensed water will flow down hill.

7. The water is supposed to drain outdoors from the back of a window unit, or to a basement floor drain for central air conditioning. There is a drip pan at the bottom of the window unit. There is a drip pan located under the cooling coil, inside the ductwork above your furnace for central air conditioning. The drip pan is there to catch the water and direct it the proper drain location. Seeing a lot of water going to the right place is very good news. It indicates that your AC is working as designed.

8. If water is draining to the wrong place, it can make an unpleasant mess. Window units should be tilted so the outdoor end is a little lower than the indoor end. If it is tilted, too much the wrong way water will drain into the house and make a mess.

9. Water from a central AC draining down inside of the furnace, will rust the furnace and destroy it before it wears out.

10. If the water is not draining, it will make ice and stop your AC from working. When the drip pan fills with water ice will start forming on the cold coil. The ice "grows upward" starting at the bottom of the cold coil. As the ice builds up it blocks the air flowing through the cold coil. You are likely to be unaware if the problem until the temperature in the house goes up. Given enough time a mixture of dust and dirt from the air, will plug the drain. Cleaning the drip pan and drain needs to be part of the pre-season maintenance.

11. How do you know when the coil inside the ductwork is iced up when you cannot see in there? If the fan is running but the airflow is reduced or stopped, it is iced up. See number 4 above.

12. If you do not take corrective action, the AC will continue to run wasting expensive electricity. The ice will continue to build up and the house will continue to get warmer. Action plan: Turn the AC off. Let the ice melt. Fix the drain problem. Turn the AC back on.

13. If the AC stops cooling but the air is flowing normally, the problem is not ice. If there is good airflow but the AC is putting out air that is not 20 degrees cooler than room temperature the problem may be due to low refrigerant level in the AC. See number 5 above. When the refrigerant leaks out the AC will continue to run wasting electricity. With low refrigerant, the AC will cool poorly and waste power.

14. What to do if your AC puts out a normal amount of air that is 20 degrees cooler than room temperature but the house does not cool down? The AC may be too small for the job. It needs your help. Action plan: Reduce the amount of outdoor hot air that is sneaking into the house. Shut off heat producing appliances and old style light bulbs. Close the storm windows and doors. Add more insulation to the attic. Spray water on the outdoor part of the central AC. Spray water on the house. Make shade for the house. Make shade for the AC. Buy another window unit. Pack up and move North.

Choosing a Log Holder For Your Wood Burning Fireplace


Having a fireplace is definitely a plus for people who live in colder temperatures. And, it can also be an aesthetic highlight in the homes of people who do not have colder temperatures but like the idea of having this addition to the home that induces warmth and family gatherings. There are many accessories that you can use with your fireplace to make it more efficient and friendly. Of course, the log holder is one such accessory, which adds to the appearance of the fireplace, giving the whole area a neater and cleaner look.

A fireplace log holder is used to store wood prior to it being placed in the fire. There are also fireplace carriers and baskets that serve a similar purpose to log holders. In many cases, the firewood holders, carriers and baskets are designed creatively to appeal to the aesthetic eye as well as the functional needs of consumers. Not to mention they safely store the wood until it is ready for use.

If you anticipate that you may be needing wood in a very short time from now, it is a very good idea to have firewood holders at home so you can have your supply of wood ready just when you need it. These holders come in a wide range of sizes, shapes and designs to conform to just about any fireplace you can think of. Bear in mind that some wood burning fireplaces actually require more wood than others, so you would need to get the type of holder that will provide enough wood for your particular fireplace.

Fireplace log holders also keep the wood safe from the ground, where they could potentially be exposed to becoming wet. And of course, once the logs become damp, they serve absolutely no purpose to the fire. The log basket also helps to keep insects and other pests away from the wood and protect it from rotting.

You can find a log carrier for firewood in various materials, including copper, wrought iron, leather and regular iron. It really just depends on what your needs are and what is attractive to you. And when you are not so interested in using your log holder for firewood, you can also simply use it to exhibit a bunch of long stemmed flowers. The firewood holder doubles quite well as a holder for flowers and can contribute to the overall attractiveness of the room in whichever way it is used.

Generally, you can get a log holder from $10 all the way up to $200, depending on the brand as well as the material and the size that you are looking for. And, one of the most popular brands available is Woodland Direct. The manufacturers have been able to create log holders in various designs to suit a wide range of clients.

A log holder is a perfect accompaniment to any fireplace because it allows and offers functionality as well as attractiveness. Consider investing in one if you have a wood-burning fireplace or if even you just want to give the impression or appearance of having one.

Central Air Conditioners - So, How Do Central AC Units Works?


I'll be explaining how central air conditioner works from a split-central air units perspective.

Central air conditions work basic on the second law of thermodynamics. Which state, "heat always flows from a material at a high temperature to a material at a low temperature." By S. Don

There are two heat exchanges in central air units: the condenser and evaporator. The evaporator coil is located indoors and the condenser coil is located outdoor.

This is how these two components works:

The evaporator coils add heat to the air conditioning system. You could look at in another way. AC evaporator absorbs heats from area that needs to be cool and add the heat into the air conditioning units. For our decision the area that needs to be cool is indoor air.

As you remember, energy can't be created or destroyed. AC units don't create heat or cool it uses air conditioning condenser to rejecting heat. Yes, that right! If you look outside your home, you'll see a square metal box outside. That is the condenser units! This is where it rejects the heat.

These two components don't require electricity. However, the condenser fan and the evaporator blowers need electricity to works.

The bottoms line is:

Air conditioner units absorb energy in one area and reject it in different area

There are five basic components to make air conditioner unit works.


  1. Air conditioning compressors- it's the only mechanical parts that require masses electricity to run. The compressor makes the refrigerant flows.

  2. Air conditioner condenser - it's located outdoor with the compressor. The condenser is a heat exchange, it rejects heat.

  3. Expansion device - its location within the air handler units. It acts as a restriction for the refrigerant.

  4. Air conditioning evaporator - it's located with the air handler units (indoor). The evaporator adds heat to the central air units.

  5. Refrigerant copper tubing - it connects the four components together.

Once, the refrigerant copper tubing connects these components. It's now known as refrigeration cycle. Refrigeration cycle is a process that removes heat from unwanted area and transfers that heat to different place. This cycle tells us what is happening to the refrigerant within each of the four components.

Central air conditioning is process that removes heat from indoor evaporator to outdoor condenser units.

All air conditioner units will always have the basic components: air conditioner compressors, air conditioner condenser, evaporator coils the expansion device, and the refrigerant copper tubing.

If you know how central air conditioning works, you understand how any air condition works. Since, the operating principle of air conditioner unit will always be the same.

Factors To Consider When Choosing The Right AC For Your House


If you are planning to own a house or a rental property, there are some factors that you have to consider. One of these factors is the air conditioning system that is perfect for your rooms. You have to ensure that your rooms are appropriately air-conditioned, so that people can enjoy living in them. However, due to the increase in the number of low quality AC machines in the market, finding the right AC Unit for your rooms can be a bit challenging. So many unscrupulous manufacturers of air conditioners do not care about the quality of the AC Unit, that they provide all they want is to make money. For you to find the right air conditioner for your house, there are a couple of factors that you must put into consideration. This article seeks to provide you with several of these factors so that you can have an easy time searching for the right AC unit.

Factors To Consider When Choosing An Air Conditioner

The main reason why you need to have an AC unit in your room is to ensure, that your rooms are always cool and fresh in hot weather. Therefore, whenever, you are choosing air conditioners you have to ask yourself, how well is the air conditioner going to fulfill this need? The ability of the air conditioner is to keep your house fresh throughout, and that truly matters. So many air conditioners found on the market today will not even last for a month without breaking down. Such conditioners not only cost more money in maintaining them but also gives a headache of repairing it frequently. Therefore, do not rush to purchase an air conditioner just because it looks terrific. Remember, looks can be deceiving sometimes.

Another crucial factor that needs to be considered, about the conditioner, is you need to buy a quality product. If the quality of the conditioner is low, then you should not expect much from it. In fact, it is more likely to cost you more money than you purchase it. Low quality conditioning units will not keep your house fresh and worst of all; they will require you to invite the repairer on a regular basis. So, do not be deceived by the low price of the conditioners, which you find on the market. It is better to spend more money, purchasing an expensive air conditioner than spend more on its maintenance. Quality of an AC unit is judged by factors like reliability, warranty, efficiency, performance and durability. You should also take your time to learn about the different types of air conditioners that are available in the market. That way, you will be able to choose the best unit that suits all of your air conditioning needs. The thermostat and condenser of AC unit plays an effective role to reduce the power consumption of an air conditioner. The thermostat of the AC unit should not be kept at a low temperature, when you start the machine. Incase you are buying a window AC unit, first thing you need to check is the dimension of the window, as the size of window AC differs, based on its capacity. Nowadays, AC's are rated by stars. 2 Star or 3 Star Rated AC units are suitable for residential use while as 5 Star rated, AC's would be the best choice for commercial use.

The cost of the air conditioner that you want to purchase is also of utmost importance. The current economic situation does not allow you to go spending money carelessly by purchasing products that are beyond your financial capability. In any case, there are numerous types of air conditioners that are affordable and are of high quality. By reading reviews and opinions of customers you would get the exact product knowledge in order to buy the best quality unit.

Air Conditioning Brands


Be a wise consumer. You should consider several factors when selecting or buying air conditioner or brands. These factors will help you determine which unit is better and which is more efficient. First on the list is the size of the space you desire to cool. Second is the amount of money you would like to save. But if your concern is in saving the environment, then it is apparent that money is not a factor. It is really what is best suited to your situation that matters in considering air conditioner brands.

Other factors to considers are the size and energy efficiency of the saidunit. The Seasonal Energy Efficiency Ratio (SEER) is the standard by which air conditioning units are categorized. The SEER rating of an air conditioning unit is the output in Btu (British thermal unit) divided by the total electric energy input in watt-hours during the same period. The unit gets more energy efficient whent its SEER Rating is higher. Before, the typical standard for calculating the SEER was factor of 9 which was not a very efficient unit; but nowadays, factor of 14 is easily achieved due to all of the technological advacnes and considerations for the environment.

There are different air conditioning types. These include window air conditioner and central air conditioning units. The window air conditioner is one of the most common types. It is versatile and easy to install. It is usually used to cool a single space or room.

On the other hand, the central air conditioning unit normally provides a central unit that is used to heat or cool an entire building. These units range from single home use to large industrial plants, warehouses, schools, and malls.

When you have decided which home air conditioning is to be purchased, it is advisable to look for the Energy Star rating symbol. The latter is a government sponsored program that offers tax incentives to those who support using the environmental resources wisely. Likewise, it ensures that you are getting the most efficient and effective unit for your budget.

Indeed, the invention of air conditiong units was a technological breakthrought. This invention has enabled man to assist in health care, better preserve food, and provide a comfort living. The success of the air conditioning unit can be contributed to the invention of electricity, the motor, and compressor.

Friday, November 29, 2013

Geothermal Heat Pumps Vs Air Source Electric Heat Pumps Vs Dual-Fuel Heat Pumps - The Final Word


Which of these systems works best? If you own your own house and have individually controlled heating and air conditioning, then you will be very interested to know which of these technologies is better--in terms of heat efficiency and in terms of cost.

First understand how these systems are powered. The air source electric heat pumps system extracts heat from the air. It is electrically based, though it is relatively inexpensive to maintain price-wise compared to gas pumps. It is also easy to use, even for the average consumer. It is cleaner than a gas powered system and not as dangerous to run, since there is no flammable or asphyxiating fuel involved. These two factors have no doubt influenced the majority to choose air source electric pumps. However, there is a major disadvantage here. They are considered unhealthy for the environment, and systems are traditionally noisy (although some systems are said to be quiet performing). Most importantly, these systems lose their heating efficiency in extremely cold temperatures, as the COP (Coefficient of Performance) is greatly reduced.

Dual-Fuel Heat Pumps are air source electric heat pumps, except that they include a back up fuel system. The advantage here is that this system can help a great deal in the cold winter season. It is more economic than running electrical heat alone, and more efficient when it comes to heating the entire house. Since experts recommend having a backup system on file a dual system (that automatically switches back and forth according to temperature) would be an even better compromise. However, with the advantages of air source electric pumps and dual-fuel heat pumps also come the disadvantages of both.

That leaves geothermal heat pumps, the only system that doesn't use the power of gas, fuel, propane or electricity. This type of system extracts heat from the earth, namely the shallow ground, which is always warmer than a winter's day and cooler than a summer's day. This type of system can save on long-term costs related to electricity. More importantly, it can heat the house more effectively because it is using the stability of the earth's temperatures. This is the favorite type of technology among green enthusiasts especially when it is combined with solar power.

There is a disadvantage to geothermal heat pumps and that is in the complexity of the design and in the huge startup costs, especially when compared to air source electric heat pumps. The final word is that it all comes to down to cost and your budget! Manufacturers to look for when shopping for these products include Addison, Daikin, Ruud and Tempstar.

Willis Carrier Enabled Arizona To Develop, Expand and Prosper


In 1902, Willis H. Carrier, a recent Cornell University graduate began work in a New York print shop for the princely salary of $10.00 per week. Bright, eager, ambitious and curious, Mr. Carrier fully immersed himself in all aspects of the burgeoning American printing industry. His interest in printing, and solving problems endemic to the industry, inadvertently have resulted in the population boom in states like Florida and Arizona.

Mr. Carrier's boss, the owner of the printing shop, was constantly lamenting the difficulty he experienced with stabilizing ink, paper formatting and application of typeface to paper based on temperature and humidity swings. The printing factory of the day was innately a warm, muggy environment as the machines were large, dirty and generated immense amounts of heat. Humid summer days further extrapolated the difficulties of the printing process. The result was inconsistent print quality and many jobs had to be redone at loss of profit.

Mr. Carrier was vexed by these problems and began to reflect on potential solutions. One evening, while waiting in the fog for the train to commute home, he had, as he described, "a mental vision" of how to solve the problem of heavy, moist, humid air which hampered the printing process and made life miserable for people during humid, torpid summer days.

Mr. Carrier's solution was based on a simple realization and study of weather patterns: cool, wind, water, fog and seasonal adjustments that Mother Nature seemed to make on cue. His theorem, which was presented to the United States Patent and Trademark Office in 1906 in his patent filing, narrative and art, contained the first description of a workable prototype for a spatial air conditioner.

The original "centrifugal chiller" was not called air conditioning for several years. Mr. Carrier worked for several more years to commercialize his invention, and in 1915, with several investors having contributed $35,000, he started the Carrier Corporation. 2007 sales were in excess of $5 billion.

Willis H. Carrier created the air conditioning system with intended applications for wide industrial placement and usage. Medical products, food preparation, cosmetics, transport of spoilable products and finely calibrated machinery were a few of the markets and industries that Carrier initially targeted. The idea of using the new air conditioning system for personal comfort did not take hold until 1924. In that year, the original J.L. Hudson Department Store in Detroit installed the system and shoppers flocked to the store.

In the early 20th century Henry Flagler was building the first railroad system through Florida. At the time Florida was a relative backwater, sparsely populated, remote, with little industry other than citrus groves. The heat and humidity in most of the state was oppressive for most of each year. Mosquito's and insects were oppressive. Windows had to be kept open to circulate the vapid, humid air.

Mr. Flager dreamt that some day Florida, Palm Beach, the Keys and Naples, would become world class resort destinations. He just needed to be able to safely; and comfortably transport visitors to the resorts he was building, and have them enjoy the wonders of Florida sunshine while the rest of the country was suffering from the winter blues. What to do about the bugs and humidity?

Arizona, much of Texas, New Mexico and Nevada were climatically challenged in different ways than Florida. Oppressive heat, no or little humidity and vast arid plains and desert made these states very difficult places to comfortably live for all but the heartiest few. Industry, technology, population growth and tourism were not likely to occur in such uninviting environments.

Henry Flager saw his opportunity to pioneer the rapid development of Florida immensely enhanced by the invention of the "centrifugal chiller".

Finally, his vacationers could spend their days in his tourist palaces in splendor and total comfort. The air conditioner enabled people to visit and enjoy Florida, and, upon returning home, spread the word about the beaches and opportunities to live in such a place. The stampede to relocate to such a suddenly inviting locale would have been unthinkable without the invention, commercialization and mass availability of air conditioning.

Arizona and much of the southwest would still be Indian reservations, cactus and scrub ranches without Mr. Carrier's invention. The mass migration of population to these states in the second half of the 20th century would have never been possible. Can you imaging Las Vegas without air conditioning.

Willis H. Carrier invented his air conditioning system to enable industry and manufacturers to function more efficiently. As so often happens, however, the device was adapted in ways that benefited the population in many alternative uses. Cars, planes, and trains were air-conditioned and the result was that long distance travel could be comfortably enjoyed for the first time in history. Arid and tropical environments around the world became hospitable.

Industries that we take for granted today could never have evolved without the ability to control excessive heat and climate. A silicon computer chip manufacturing facility creates huge amounts of heat that must be controlled. There could be no modern computer industry without air conditioning. The bio-technology, nano-technology, pharmaceutical and laser industries would not exist with Willis Carrier's invention.

My marketing, consulting firm, Duquesa Marketing, reviews hundreds of new product and invention submissions each year. Most of course, do not possess the wonderful utility of a product such as air conditioning. Nevertheless there are wonderful lessons for product developers to learn from stories such as Willis Carrier's. The road first taken is usually not the route we wind up taking to success. Many products meander to successful mass-market commercialization.

The next time you walk inside on a hot summer day, remember that the blast of comforting cool air you feel was originally meant to enable printers to more productively place ink on paper. Keep your mind open and eyes focused for alternative, hidden opportunities to commercialize and maximum your ideas, concepts and inventions. They are all around you.

York Air Conditioning History


It is one of the awesome conditioning firms and regarded as the quality providers for global market in the field of refrigeration. The customers are advised to go peer around this firm by which you can get assuaged after getting across this firm products.

There are lot of ways where you can attain the details and merits of purchasing their firm products which meets out good quality among the other conditioning firms.

Profile of The York Air Conditioning firm

This firm has started the operation well before some years ago. Now in the present field of conditioning firms, this firm is regarded as one of the most competitive providers of conditioners where it assuages the customers all round the globe.

Moreover they supply with wide range of varieties at a low economic cost and caring duties.

The founder of the firm was Johnson. The total network of this firm accounts to more than one hundred and twenty five countries.

The firm includes several employees in the department of sale and service care. They also regarded as one of the finest suppliers of conditioning products.

This company has many qualities that attribute to achieve number one position in the universe with regard to conditioners. The common people say that this firm has uniqueness of being top class category because it assuages in all aspects of the category.

The customers can always visit the firm for purchasing their favorite products since they include and provide all kinds of product range. It is also possible to meet out the requirements when they need of any maintenance staffs immediately.

These staffs are employed by the firm so as to rectify the problems faced by the customers. They are also instructed to visit at any time and solve the problem at once.

The best service that you can receive from this firm is that staff who could help and solve the problem immediately. This act is greatly welcome by the customers because they don't need to pick their amount from the pocket.

The firm gives lot more due veneration towards the customers. This too very well acknowledged by the customers.

They seem to be happy for buying their products and by act of mouth of spread the firm has really grown in bigger way and achieved a lot in very short span pf period.

Now in present trend this is one of the firms which have good reputation among the world wide customers.

It is said that no other firm comes as close with regard of quality and customer service package.

Auto Air Conditioning


The air conditioning unit of a car is often easily overlooked--that is, until it malfunctions. And when it does, it is often too late for simple troubleshooting procedures. Unlike your household unit, your auto air conditioning unit is more complex.

Your auto air conditioning unit is a system that functions much like your cardio-vascular system. The compressor is the heart that pumps a refrigerant called Freon throughout the air conditioning unit. Freon, a combination of gas and liquid, causes air to cool when compressed.

Like your ordinary household air conditioning unit, your auto air conditioning system will not work as it should when Freon levels are low. Make sure you have a mechanic check Freon levels regularly before the unit experiences major breakdown.

The ability of the Freon to carry heated air away and leave cool air behind depends on the pressure applied to it. Air coming into the condenser helps in this process. This is the reason why, sometimes, for older models of ar conditioners, the temperature is cooler when the car travels at full speed than when it stands idle. This allows the compressor to pump Freon harder and faster. Therefore, the air conditioner system operates much more efficiently.

To keep the performance of the auto air conditioning unit running smoothly, and to prevent temperature changes, make sure that the electric cooling fan that takes in air functions properly. It must turn very fast for it to be effective.

Motor overheating affects the functions of your auto air conditioner, as it does all the aspects of vehicle performance. When the motor is shot, the fan may not work as efficiently as it should. The added heat coming from the motor will also make it difficult for the air conditioner to cool the car. Make sure you take care of your motor. Always have water ready to cool your motor and prevent it from overheating.

HVAC Air Conditioning for Your Convenience


Your home is one place you would want to go after a hard day's work. There is no better feeling than to just kick back and relax on your favorite couch after a hectic day at work. This great feeling, however, might not be so great if the temperature in your room is not as per your liking. HVAC air conditioning plays a vital role in providing you with the required comfort level. These heating, ventilating and air conditioning systems not only regulate the temperature in your home, but also purify the air that you breathe.

An HVAC air conditioning system is very useful when it comes to heating your home during winters or cooling your home during summers. You all know that! What you may not know is that they also keep pollutants away from your home as well. The air on the outside is contaminated due to pollution and other impurities. These impurities tend to have a harsh effect on the human body. HVAC systems block all these impurities from entering your home thus managing to provide you with fresh air all the time.

Just when you thought that the pollution outside is bad, well, you might be shocked to know that there are also many indoor pollutants that are present within the four walls of your home. No matter how much you clean your place, there is no getting rid of these pollutants. Well, HVAC air conditioning here filters the air thus reducing the chances of you inhaling these indoor pollutants.

As reliable and effective as these systems may be, they are machines after all. Hence the chances of them giving problems of malfunctioning are enormous. To avoid such problems, getting them serviced from time to time is a must. If you cannot do this, no worries, just hire professional service providers to do it for you. If you are finding any trouble to get professional help to service your HVAC air conditioning systems, then try the Internet. Today, you can find almost anything on line, hence a search for a professional servicing company will be like a walk in the park. Here, a good deal of research is needed before opting for the best professional help. If this does not work out, you can always have a word with people who have opted for these services in the past so that you obtain first hand information depending on their reliability.

The Cost Effectiveness Of Mini Split Air Conditioning


The ductless mini split air conditioning unit will be ideal for any home or commercial places. The system is a combination of central and wall mounted units. This will act just like every other wall-mounted device, blowing clean air in just one direction. The similarity with the centralized air system is that it makes use of split component systems. This comes with an external condenser and compressor with an interior oxygen handler.

When compared to a central AC the unit will function far better. Even though it is a relatively expensive system, it requires no ducts in order to function in a house, which makes it well suited for properties where installing ducts for every central unit can be very expensive.

Mini split air conditioning may be the ideal choice for someone living in a house without the significant electrical or duct work for installing central air or perhaps someone who don't want to depend entirely on the window or portable air conditioning system. The units are also less noisy and much more energy efficient than the area air conditioner. Moreover, it will not occupy floor space or even block any window.

Houses and spaces which utilize hydronic or radiant heat or another type of non-ducted technique for heating will be effectively best for almost any ductless mini split unit. Taking into account the miniature model of a split central unit, the interior system is not made to serve the whole house, yet based on its BTU production it could quickly work on a whole floor.

Similar to other air conditioning units, the system comes with two components: an external condenser/compressor and an interior air-handling device, attached by conduits. By using conduits of various lengths, an external compressor could settle as significantly as 50 feet from the interior unit. A Mini split air conditioning system will be really cost-effective and might be a practical option to the window mounted units.

Thursday, November 28, 2013

Common Air Conditioning Mistakes


  1. Neglecting Filter Change and Maintenance
    Most manufacturers recommend changing / washing the air conditioning filter every 30 to 60 days. Changing the filter regularly not only improves the air quality but also helps you save electricity and can make your air conditioner last longer. Regular maintenance by your AC contractor not only ensures that your air conditioner is ready when you are ready to use it, but also keeps the efficiency up and prevents it from wearing out too quickly. Leaking refrigerant is a problem commonly detected by AC professionals. Even a loss of 10 % of the cooling substance (like R-410A or the older ozone-harming R-22) can result in a 20 % higher electricity usage and can reduce the lifespan.

  2. Using the Thermostat Incorrectly
    This point is simple but often neglected. Why should your air conditioner run when you are away from home for the entire day? Setting the thermostat a few degrees warmer when you are leaving the house for a longer period of time can save you up to a couple hundred dollars per year. Also, consider upgrading to a programmable or a WiFi-enabled thermostat, to give you even more control over your home's temperature. Also, did you know that your air conditioner runs more energy-efficiently at night than during the day? This is just another reason to have the AC temperature set warmer during the day and cooler in the evenings and nights.

  3. Using AC as a Ceiling Fan Replacement
    Making correct use of your ceiling fans can save you money on your electric bill. If you have a ceiling fan running in the room you currently occupy, you can probably set your thermostat 3 degrees warmer. Even though ceiling fans don't actually lower the room temperature, they cause the moisture on your skin to evaporate, giving you a pleasant chill. Although ceiling fans take electricity, they consume much less than your air conditioner. Just remember to turn off the ceiling fan when you leave the room.

  4. Keeping the Windows Closed
    An air conditioner only cools the air in your room and doesn't bring in new air from the outside. Opening the windows occasionally welcomes in fresh air and oxygen. Also, ushering in the cooler air in the mornings or late evenings can help you save energy.

  5. Thinking that Bigger is Better
    It is true that a bigger air conditioner cools your home faster than a smaller one. But having too large one has a couple of disadvantages. First, an oversized air conditioner will not run as efficiently because the cooling cycle is too short. This can also negatively influence the life expectancy of your cooling unit. Additionally, besides lowering the room temperature, it also lowers the humidity level. If the cooling cycle is too short, it cannot successfully lower the humidity. As a result, the air in your home will feel damp and moist.

    To find the proper size of air conditioner you need to know how much power (measured in Btu = British thermal unit) is needed to cool your home. Your local air conditioning contractor or an online Btu calculator will determine the right amount of Btu based on your room size and other factors.

  6. Turning Off Your AC Completely
    This advice is especially important for snowbirds, or anyone who lives in their home only part of the year. If your house has been sitting there with no air movement or humidity/temperature control for half of the year, you should not be surprised to see mold when you return. So, be sure to keep your air conditioner running for at least a little while each day you are gone. You also might consider upgrading to a WiFi Thermostat. WiFi Thermostats allow you to control your air conditioner from anywhere you have an internet connection and an electronic device like a smartphone, tablet, or PC.

Common Factors Why Carrier Furnace Prices Are Worth It


Carrier is one of the most trusted brands in the furnace industry. Since most of their models have performed well year after year, it has gained a good reputation for being reliable and practical. Most owners have observed that this brand can last for quite a long time and there are cases when they have even exceeded their expected lifespan. Though carrier furnace prices are not the most affordable in the market, the figures are justified by the excellent quality of their products. It's something that you can wisely invest in if you are planning to stay in your present home for quite some time because it would really give you your money's worth. The quality is not just exceptional, but the warranty is an advantage for homeowners as well.

If you think that carrier furnace prices are not an issue, then you should be happy with your choice because this is one of the most solid brands around. Furnace companies tend to recommend them because customers don't have to worry too much about furnace problems. As long as you have installed them correctly and you maintained them well, furnaces from this brand will not die on you in the middle of winter. If ever you would have some problems due to uncontrollable circumstances, you would discover that they are not hard to repair because they are covered by good warranty coverage from the manufacturers. If the problems happen after the warranty has expired, there are many professional technicians who are willing to repair this furnace brand for you, especially since there are many spare parts available.

To make sure that you will get the most out of your carrier furnaces, you have to make sure that you are going to have it checked once a year for any problems. You also have to hire a skilled technician who can clean the whole system for you. If your unit is simply just a furnace, you can do this before the winter season. If you have one of those dual models that carry a cooling system as well, you should have it serviced twice a year because it is being actively used all year round.

All You Need To Know About HVAC And Air Conditioning


There are important things you should likely consider when it comes to HVAC and air conditioning before it can be inspected on different occasions. Maybe at times you are faced with its maintenance issues or you want to buy a brand new house, so it is a must to understand it more. The HVAC and air conditioning can also be maintained and inspected regularly. Although a system is considered at its best condition, oftentimes there are issues that should be addressed.

Actually, all HVAC systems are greatly designed to be of service for fifteen years or more from now. But if you purchase a new home or your system is troubling you, an inspection is such a good idea. If you take a look at a ten-year old home, then consider buying a brand HVAC system when it comes on making a good offer to your new home.

Before any inspection takes place, make it sure to turn on all utilities in order that the HVAC and Air Conditioning can run over a certain time. An inspector proven for his best service won't turn it on, but for sure he would run it longer enough to effectively cool or heat the house. Allow the HVAC system to operate for almost three hours before the inspection but never plan to consume the lunch hour for it.

Both of the inside and outside unit and all ducting processes should carefully be inspected. Older homes may have its older systems, thus better ducting on tighter seals isn't expected. Therefore, the ducting of joints is separated with a leaking air on your crawl space or attic. Cooling or heating the area is an inefficient use of resources and may cause expenses as time go by.

Spend more time in searching a good inspector as he knows how to operate HVAC systems. Home inspectors include checking HVAC system as they search the whole parts of the house. It would be a lot better if you personally consider an HVAC system specialist. You can save a lot from him if you find it hard cooling or heating your system. The cooling system may now run correctly but you must have extra money to pay for him.

After a thorough inspection on HVAC system, it can now be used so as to manipulate the air temperature on inside mobiles and buildings. It deeply combines several principles concerning mechanical engineering that includes refrigeration, fluid mechanics, heat transfer and thermodynamics. Actually, the system was established by several inventors and engineers at the rise of Industrial Revolution. It has its essential function especially on indoor establishments wherein different facets are combined as unified and efficient system.

Moreover, the system is considered an ideal solution to a quality air for indoor houses and buildings as well as a temperature control to living organisms. It most cases, it helps in the preservation of artifacts that should be stored at their balanced environment. Likewise, they are essentially used on winter season like when the snow falls. HVAC systems use the thermodynamics principle to balance the temperature of buildings and houses. It has its best advantage as heat transfer is used on various objects to warm up all the rooms.

Air Conditioner SEER Ratings


To understand the best SEER ratings let's first discuss what SEER is. Seasonal Energy Efficiency Ratio (SEER) is the measure of energy efficiency of an air conditioning system. SEER ratings allow consumers to compare various cooling systems and the effectiveness to operating costs.

Basically new AC units are going to have a higher SEER rating than those that are older.  This is just common sense but it does not always mean you need to spend a fortune on a new AC unit. There are many factors that will come into play and taking a look at all of them will help deduct the best possible resolution to this venture.

Before you look into the AC unit itself you will need to determine a few things about the environment you are trying to cool such as; insulation, layout, air leakage, the condition of the current piping and duct system already in place to filter the conditioned air, and the current operating cost of the AC unit already working in the environment you are wanting to cool.

In the end the higher the SEER rating the more efficient your cooling system is going to be.  Aside from looking at the physical aspect of the area you are cooling you will need to deduct certain percentages to figure out what you are going to need to have a sufficient system.

This is a mathematical equation that uses the combination of comparing the SEER rating that will provide a certain amount of BTUs to the cooling per WattHour (Wh) of operation. The SEER rating itself will determine the number of BTUs for example a SEER rating of 10 will produce 10 BTUs of cooling per Wh.

This is what makes a higher SEER rating more efficient. Wh measures either electrical energy produced or consumed and this is determined by the amount of energy used when the AC unit runs for an hour. To break this down a little better if you are using a 100 watt light bulb for an hour you are using 100 Wh of energy.

There are many factors in determining the SEER rating and this is why we have heating and cooling professionals to help you break all this down and figure out what is going to be the best unit to acquire and why.

Window Air Conditioning Units


If you live in above the Mason-Dixon line, then you are probably familiar with window air conditioning units but for those that were born and raised in the south they might seem something quite out of the ordinary the first time you lay eyes on them. A window air conditioner is a good solution for homes in areas with relatively short and moderate summer months and low humidity. One unit is good for cooling one closed off room or two open area rooms. The real benefit to the homeowner is the lower energy cost for cooling only those areas needed at the times needed rather than cooling the whole house. If you live in the south or other areas of the country that experience extreme heat or humidity, window units are not a good long term solution primarily because the resale value of your home will go down dramatically in those areas without a central air conditioning system.

There are some situations where a homeowner may have both a central system and window units. One example of this is where a homeowner is looking to save money by running the central air conditioning system less (say 79 degrees instead of 73), then augmenting the cooling in the den, or bedroom, or whatever room the family occupies the most. A good rule of thumb is that you will save 5% on your central air conditioning power consumption for ever degree that you sacrifice, so in this case the homeowner is saving 30% on the central system and consuming quite less than that on the window systems. If you are looking at possible doing the same, then the first thing to do is to make sure that there are not zoning laws or deed restrictions preventing you from running window units in your neighborhood. Even though noise is not a big issue with a lot of the latest makes and models, these deed restrictions still exist with noise as the justification just because some neighborhoods consider them an 'eye sore'.

If you have decided that a window air conditioner is suitable for your situation, then there are a few thing that you need to know or decide upon before shopping:

  1. What is the area of the home to be cooled? This can be determined by measuring the length, width, and height of the room. Buying a unit that is too small for the room will not cool it down to where you want it to be. Buying a unit that is too big for a room will cause it to short-cycle which will use more energy than necessary and will not dehumidify properly.

  2. What is the minimum energy efficiency rating that you will want? The higher the EER rating the lower your electrical consumption for the same cooling power, however the higher EER units usually carry a higher price tag. You may also want to check EnergyStar.gov to see if the unit(s) you are looking at qualify for any energy tax credits which will help to lower your effective purchase price.

  3. Features that the unit should have which will help keep you comfortable and lower the overall usage costs are:

  • A built in timer so you can start and stop the unit at preset times. This is good for cooling a room before you get home from work, or turning it off after you fall asleep.

  • An internal thermostat so you can set the unit for a specific temperature.

  • Variable speed fan control.

  • An optional internal/external cover for the unit for the months it is not in use will minimize cold are seeping through into a heated area.

With the current state-of-the-art in air conditioning technology, any home owner should be able to configure the perfect scenario to cool their home in the most energy efficient way possible.

Life Without Central Air Conditioning Is A Less Than Existence


A central air conditioning system for the modern home isn't considered a luxury any more. Only people from generations past still hold this belief. So what changes have occurred to make the average home a refuge from the temperature highs and lows?

Increased efficient manufacturing processing as well as offshore placement of the facilities have dramatically improved the manufacture of machines as well as increased the technical ability of the air conditioner. Modern central air conditioning systems are able to adjust to temperature fluctuations, keep operating at extreme temperatures and deliver all this at a less cost to the home owner.

Having decided to install a central air conditioner in their home most owners are at a loss to know where to start in their decision process. This situation is not alleviated by the plethora of detail and technical jargon being poured onto the decision maker. But if you can find the right company to align yourself with the process is not as dire as one would think.

Which central air conditioning system is right for you?

Everyone's home is different, and as a result everyone's quoted price and type of unit will differ slightly. But some aspects will always be the same. Knowing how many rooms are to be conditioned, how large the rooms/house is, and where in the world you are living are some of the basics that will aways be taken into account in the quoting process.

So which contractor should you choose?

Air conditioning contractors are all over the place, it seems that when you finally decide to allocate the funds to the project you start to see them everywhere. But which are good and which will offer you a white elephant. Firstly your best option is to never go with the smallest company and the cheapest quote. Although this is a given to most people it can be alluring to some to see the low installation quote being offered by some companies. Do not be fooled by this. Secondly, try to get some testimonies from people who have already been where you are now, but do not accept a competing company's customer testimony as it will always be a glowing account of a perfect trouble free installation. What you need is someone who had a few problems and how the installation company responded to them.

After all the dust has settled the customer should have an environment in their home that will provide comfort and respite from the ravages of the climate we live in today. Central air conditioning industry is a billion dollar industry which employs many thousands of people around the globe. It will always be around doing it's best to gain your respect and patronage. If you have decided to install a ducted system in your home do it right from the beginning and all the rest will fall in place from there.

Wednesday, November 27, 2013

The Future of Air Conditioning - Solar Air Conditioners


With advancement in science and technology, solar power can now be used in a number of ways. One of the upcoming uses of solar energy is operating air conditioners. Though it sounds like a contradiction, a solar air conditioner works using the sun's energy to cool our homes. Such air conditioners have great application in arid areas where there is abundant sunlight. Air conditioning becomes a necessity in such areas and with bright sun as the source of energy, solar air conditioners are the perfect choice.

Types of Solar Air Conditioners

Solar air conditioners are either active or passive. Active solar air conditioners are of two types - solar absorption cooler and solar desiccant cooler.

In a solar absorption cooler, solar heat is absorbed by thermal collectors and this heat is used to separate a mixture of refrigerant and absorbent fluids. The refrigerant fluid is then condensed and evaporated. This process cools the air and this cold air is sent into the house. The absorbent fluid reabsorbs the refrigerant and the process is repeated.

In solar desiccant coolers, moist air passes over a "desiccant wheel" that contains moisture trapping materials. The moisture in the air is absorbed by these materials, making the air cool. Fans are then used to send this cold air out into the room. This type of solar coolers requires lesser temperatures than absorption coolers.

Passive solar air conditioning is usually designed along with the house, as it is inbuilt. It is usually built as a solar chimney or a solar cooling tower. A solar chimney is generally built on the south face of a house. Its south facing side is glazed so that it can effectively absorb the sun's heat. This chimney is connected to the inside of the house with the help of a vent at a high point on one side and at a low point on the other. The vents at the low point are then connected to large underground pipes.

When the air is heated up at chimney, it creates an upward draft which creates a vacuum. When this vacuum is created, air is drawn into the vent at the low point and as this air travels through the vent, the water pipes cool this air. Then the cool air is let in to the house for cooling. This cycle repeats itself providing a cool ambience.

Advantages of Using Solar Air Conditioners

It is an eco-friendly method, as no non-renewable energy sources are being depleted. It relies on solar energy, which is one of the most abundant sources of energy.

Solar air conditioners use only solar energy, air and water to cool the interiors of a house or building. As they do not emit green house gases such as carbon dioxide and carbon monoxide, they do not add to the air pollution.

Apart from the low cost of setting up, it helps you cut down on your electricity bill. You also save on precious electrical energy. As it is not backed up by electrical power, it can be used anytime regardless of load shedding.

Solar air conditioners help save money as well as help in safe guarding the environment. They are as effective as any electric coolers and can be used for residential, commercial, industrial, governmental or military purposes. With all their financial and ecological advantages, they are a great air conditioning option for every place where sunlight is abundant.

Air Conditioning and Heating - A Home HVAC System Can Be Properly Maintained With Little Expense


Very few home owners understand how a heating or cooling system work to provide a comfortable environment. Most home owners probably do not even care, until the system loses its effectiveness or fails completely. Depending upon the problem, the cost can be as little as $30 or as much as several thousand dollars.

There is little an individual can do to help maintain an air conditioner system. Almost all of the possible "fixes" a home owner can perform themselves will just cost a few dollars. Theses "fixes, however, fall under maintaining rather than outright repair. The few tasks involved are filter changes, visually inspection of the outside compressor unit, and proper landscaping.

Regular filter changes are one of the most important chores to perform and also one of the most inexpensive. Many times there is a second air filter at the heat pump or elsewhere in the system which is serviceable by the home owner. By routinely replacing a dirty filter with a new one, the home owner allows the HVAC system to operate without straining to pull air through a clogged filter. HEPA type filters have been standard use and fairly inexpensive per unit. Many professionals may recommend the use of a reusable electrostatic filter. These filters are washable and can last much longer than most other types of filters, thereby saving money.

Visually inspecting the compressor unit on the outside of the building can indicate a potential problem. one does not necessarily need to be a HVAC technician to recognize a problem. The first attribute to examine are the fins. The fins are thin metal flat strips resembling fine ridges. The purpose of these fins are to dissipate heat, much like the radiator does in a car. Should the fins be bent or flattened, airflow through the fins is restricted which in turn will prevent proper and effective heating and cooling of a home or business. Many home improvement stores sell fin combs which are used to straightened bent fins, however, if the fins are mashed enough or show other signs of wear or damage a professional technician should be called to inspect the unit.

A second visual inspection should be made regarding the placement and the way the compressor is mounted on the pad. If the unit is not in a level position, problems can occur. Should the outside unit shift, tubing connections can be damaged which may allow leakage of the refrigerant. Should this take place, the leak may or may not be noticeable immediately. Placement of this unit should be above any dips in the ground slope. If the compressor is allowed to sit in a puddle of water every time rain falls, a shortened lifespan can be expected.

The last thing a home owner can do, and of major importance, is to make sure the outside compressor unit is clear of any plant overgrowth or clutter. Too many times is an air conditioner compressor unit intentionally blocked and crowded by large shrubs or fencing sections in the home owner's attempt to hide the unsightly unit. It is imperative to allow sufficient space on all sides of the HVAC unit in order for the proper and efficient operation of the outside equipment. By blocking or tightly concealing the compressor, the air flow is greatly restricted causing the HAVC system to work harder and longer. Not only will this shorten the life of the equipment, but raise the monthly utility bill. The unrestricted airflow is of prime importance.

There will come a time, though, when a repair technician or HVAC company will need to be called to service a home's air conditioning and heating system. By following the few maintenance tips above, a home owner can be reasonably assured of having to call a HVAC company later rather than sooner.

Keep Cold Air Out With Window Air Conditioner Covers


With each year comes the season when we tend to worry about the amount of cold air that enters our homes. Keeping your home well insulated during the winter months can become an issue if you own an indoor air conditioner. Cold and high winds break through the AC covers placed on the outside of the unit, since outer covers are made only to waterproof and wind-proof the unit. Outdoor covers can be impossible, dangerous, or difficult to install. This is a task that can be avoided with an investment in window covers for the AC.

Indoor air conditioner covers are fabric on the outside and insulating fiber on the inside. The cover is manufactured to fit perfectly over the part of the air conditioning unit on the inside of the house. With the adhesive tape for sealing and air waterproof sheets made of plastic, window air conditioner covers grasp and conform to the border of the unit, holding the cover in place. Having this sheet taped to the unit from the inside effectively keeps the air waterproof and also works to protect the seal from the inclement weather than oftentimes destroys an outside adhesive. The inner layer keeps the room safe from cold air in the AC unit.

Before purchasing air conditioner covers, it is important to measure the size of your AC unit based on the directions given by the manufacturer, as covers come in a variety of sizes. In addition, indoor covers are made with a myriad of canvas options. This allows the buyer to choose the proper material for their air conditioner based on specific climates. For example, heavy duty canvases work for great protection from drafts, while an insulated canvas is central to quality thermal protection and the premium marine canvas is useful in climates that are wet. This winter, instead of hanging out of the window in an attempt to install an outdoor cover, which can be ripped off with the right gust of wind, you might want to invest in something more reliable; something like an indoor air conditioner cover.

Benefits Of A Portable Air Conditioning Unit


There are many reasons to choose a portable air conditioner. Firstly, the versatility of the portable air conditioner out weighs the stationary air conditioner by far. This means that you can move the portable unit to where you need it most; portable units have wheels and are not too large to move. This is a great advantage over stationery units as the portable unit is compact and contained in one unit and very easily moved from place to place.

These versatile and convenient units can be used to cool homes and offices, they can also be used to cool small enclosed spaces such as a computer server room, boats, garages and workshops and more. The portable unit is handy for temporary cooling needs, allowing you to work and live in a comfortable environment.

The setup of these portable units are easy, they require a power supply and a way to vent hot air from the motor. The power supply is a normal plug fitting, so placing and moving portable air conditioning units is not a problem. These units are usually situated against the wall or in the corner of the work or living space.

The portable air conditioning unit uses Freon to cool the air, and then the air is directed back into the room. The motor of the unit requires ventilation which is usually an adjustable hose to siphon the hot air away from the room that is being cooled. Condensation is created during the cooling process and most portable units must be drained of the water- this can be achieved by attaching a drain hose, or by physically emptying the reservoir.

If you are thinking of hiring or purchasing a portable air conditioner unit, consider getting top advice and information from a reputable air conditioning company. You will be able to get information on the type of unit which will most appropriately suit your individual needs. These professionals will also be able to help you with measurements and what size unit will be best for your area. There are a number of considerations which will affect your choice of portable unit, namely the size of the area to be cooled, whether there are electronics in the area, how many people occupy this space, windows and insulation. So, if you think you may need an air conditioning unit, get expert advice and top products from leading air conditioning companies.

With portable air conditioning units there are also a number of options available to you, some operate with remote control, others can operate as a dehumidifier and a heater too. We recommend you get professional advice from air conditioning experts to ensure you receive optimum air conditioning and a comfortable environment.

Why Ducted Air Conditioning Is Such a Great Idea


Many homeowners are somewhat apprehensive about installing and using ducted air conditioning in their home and the reason for this is that they are concerned that the air conditioning system will prove to be a gross eyesore, an intrusive fixture that offends the eye and displeases the mind. If this is a concern that you may have, then you should give some serious thought as to using ducted air conditioning.

The reason for this is that ducted systems is renowned for its discreet and low key nature which means that the consumer will be able to install this style anywhere within their home and not have to worry about it clashing with their d矇cor. Best of all, the grills can be placed anywhere within the home because their effectiveness will not be diminished or compromised in any way or measure whatsoever.

Some people have mockingly and cruelly dismissed the ducted systems as little more than the air conditioning world of vanity license plates: i.e. nothing more than a gross indulgence in personal vanity and the epitome of those of us who are concerned purely with superficial appearances.

In reality, the fact that the grilles are capable of being located anywhere within the home means that there is a far more even and uniform distribution of the temperature around the home thereby meaning that the resources are centralised. Therefore, this means that an entire home can be comfortably cared for by a single ducted systems, as opposed to several different units running concurrently with one another.

This in turn makes the logistical details of having such systems in the home much easier, in addition to providing the homeowner with a dramatic and substantial saving in the running costs of installing, repairing and maintaining such items in their home.

Another concern that many people have about air conditioning in their home is that these systems are perceived to be very noisy indeed and so this is can be extremely intrusive and disruptive indeed for the occupants of the home. Thankfully, this is not a concern at all, as the ducted system is renowned for being one of the quietest performing systems that is on the market at this current period of time.

So what's the catch? As previously alluded to earlier within the article, this sort of air conditioning system is ideal for servicing an entire home. The drawback here however is that given the rather steep cost associated with such a system then the homeowner may find that in order to justify such a large and sizeable instance of expenditure, they would need to furnish their entire home.

If you are uncertain as to whether this sort of air conditioning unit is the right choice for you and your home, then why not consult an air conditioning expert and voice your concerns with them? By raising your queries, they will be in a better position to identify which of the various different types of air conditioning system that are on the market, is the right choice for you.

Ductless Mini-Split Systems - Central Air for Older Houses


If your house does not have ductwork ("i.e. is ductless") you might think that you cannot have central air conditioning installed. That was a correct assumption not too long ago when there weren't effective systems that could be installed in houses with forced hot water heating or electric heat. In that case, most people had to use bulky, drafty, energy inefficient air conditioners that had to be put in and taken out of windows seasonally. And you often had to put one in each and every room you wanted to cool.

Recently, however, a new system called the ductless mini-split has been brought to the market. Now you can have central air no matter how your home is currently heated, and you don't have to change or tear down your current system. Ductless mini split systems are as quiet as a breeze, and use less energy than other systems. They can cover your whole house, and even have multiple thermostats so you can control the temperature in different parts of your house.

The mini- split system is practically invisible. In fact, the small (one to three inch) holes can be located high on your walls, low to the ground, or anywhere in between. Your installer may be able to give you advice about where to put them to ensure maximum system efficiency. The rest of the system can be installed partially in a crawl space or basement, and partially outside. There are no visible features inside the house except the small holes.

Ductless minisplit systems are growing in popularity, and therefore there are more qualified installers. It is still important to be sure that your installer has experience in this area, and particularly with homes similar to yours. It is also important that you get several estimates, as the installation of mini-split systems can greatly range in price. This is one type of housework where calling references, especially people who have had ductless mini-split systems installed, is also important.

Ductless minisplits increase the resale value of your home; in fact, in some areas older homes do not sell because of the prohibitive cost of installing central AC. Some people have even installed ductless minisplit systems in houses with existing central air in order to save money. This is particularly likely in homes where the air travels through long, uninsulated ducts before it reaches the vents, or where the vents are large and unsightly.

The next time you are carrying that bulky window air conditioning unit up a flight of stairs to install it in a window, or going into a room where the air conditioner can't reach, think of installing a ductless mini-split system.

Tuesday, November 26, 2013

How to Find a Good Air Conditioning Contractor


Your air conditioning system is an essential part of the comfort of your home, especially during those long summer months when the heat and humidity combine to make things sticky and miserable. If you've ever suffered through a stretch of hot weather with your air conditioner on the blink, you know how important it is to have an air conditioning repair company you can rely on for quick, efficient and affordable repairs or replacement.

Finding a reliable air conditioning repair contractor is essential for a number of reasons. First, you want to know that the repairs made will be up to code and safe for you and your family - faulty installation can be dangerous as well as costly. You also want to find an air conditioning contractor who will give you an honest, fair quote for an air conditioning system that will be powerful enough to cool your home properly when you're ready for a new unit. There are a few things you should keep in mind when looking for an air conditioning contractor that will ensure that you find the right company or individual for the job.

Look for air conditioning contractors who belong to professional organizations. There are several organizations that focus on the HVAC industry; each of these has strict guidelines and expects their membership to keep up to date on industry changes through continuing education. Look for ASHRAE (American Society of Heating, Refrigeration and Air Conditioning Engineers), AMSE (American Society of Mechanical Engineers) or ACCA (Air Conditioning Contractors Association) membership.

Interview potential contractors. You can do this by phone or in person; the important thing is to ask the right questions. You should ask them:

o    Are you and your employees bonded and insured? Even if the contractor is an individual air conditioning repair specialist, he should be properly bonded and insured to protect both of you.

o    Do you have referrals from recent clients? Ask for names and phone numbers of recent customers - then call them and ask what they thought of the service they received.

o    Can you provide a quote free of charge? A good air conditioning contractor will be happy to provide you with a quote for the job. The quote should be itemized, with each part clearly described and priced separately.

o    Take note of the questions they ask you when discussing the work you need done. The more detailed their questions, the more accurate their quote is likely to be. At the least, they should ask about your home's size and dimensions, the amount of insulation you have, number and placement of windows, etc.

o    Ask if the contractor is a licensed distributor for the air conditioning unit or units they recommend. Those who are licensed distributors can often offer a better warranty directly from the manufacturer.

o    Be sure to discuss the timeline needed to complete the work.

o    Check websites and do some research. Legitimate air conditioning contractors will usually either have a website of their own or have a detailed listing with a professional contractors' service website. These will provide information on the services provided, links to additional information and contact information for the company. Be sure you check to see that all information is current and accurate.

Finally, when you've narrowed your choice down to a few air conditioning contractors who you feel will do a good job for you, check with the Better Business Bureau to see if they have a history of complaints. And remember, a good air conditioning repair or replacement contractor will always be willing to put their agreement with you in writing!

Is It Time to Upgrade or Replace Your Central Air Conditioning?


Hot weather got you thinking of buying a new air conditioner? Is your current air conditioning system not cutting it anymore? If you have central air conditioning, it may be time for an upgrade, or to address some problems with your ventilation system.

Here's how to tell:

Your current fan may be ineffective.

If your air conditioner is more than 10 years old, it is likely working ineffectively and inefficiently, and should be replaced with a more energy-efficient model. Older air conditioners typically mean higher energy bills.

If your air conditioner needs frequent repairs it may not be properly suited for your home. You need a heating, ventilation and air-conditioning (HVAC) specialist to assess your current system.

If your cooling bills continue to rise, your system may be working inefficiently. Some of the cost of a new air conditioning system will be offset by lower energy bills.

If some of the rooms in your home are either too hot or too cold, it could be your air conditioning equipment malfunctioning or functioning inefficiently, or it could be a result of problems with your ducts or inadequate insulation.

If you have problems with humidity, your air conditioning equipment may be defective or otherwise performing inadequately or you may have leaky ductwork, which can be corrected by a qualified HVAC contractor.

If there is a lot of noise coming from your air conditioning unit, there may be a problem with its indoor coil, or your duct system may be too small. For any of these scenarios, contact a local HVAC specialist for an assessment and recommendations.

For any of these scenarios, contact a local HVAC specialist for an assessment and recommendations.

A bigger system is not always better

The most important factor when purchasing a central air conditioning system is that it's the appropriate size. Bigger is not necessarily better. If your system is too big, it won't be as effective at dehumidifying, which will make your home feel hotter. Also, because oversized systems cycle on and off more frequently than they should, they tend to break down more often, cost more to maintain and wear out faster.

An air conditioning system that's too small won't be able to cool your house adequately. It will be overworked, use excessive electricity, run loudly and be prone to premature failure. It may even freeze over on the warmest days.

Get a professional to assess your system requirements

A professional installer is trained to consider various factors that determine the right size of air conditioning equipment to meet the specific needs of your home - beyond square footage. Factors such as the age of the house, its size, how many stories it has, how well it's insulated, the number and quality of windows, and even local energy rates. They should use industry-standard "Manual J" and "Manual S" sizing calculations, however their years of experience can be used modify the results. They may take into account other factors such as the shade effect of trees or the positioning of the windows on the house, to further inform their recommendations. For this reason it is best to get more than one opinion.

Once you know the proper size of air conditioning unit required for your home, you can compare different models for energy efficiency, price, warranties offered, quiet operation, etc. To compare energy efficiency, each system is given a Seasonal Energy Efficiency Rating, or SEER (look for the yellow Energy Guide tag attached to each appliance).

Go for SEER 13 or above

To keep it simple, the higher the SEER value, the more energy-efficient is the system. Right now, a SEER of 10 is the lowest rating of air conditioner allowed to be sold by law. However, on January 26, 2006, the law will change requiring a minimum mandatory SEER rating of 13. So for now you are still able to purchase SEER 10, 11 and 12 air conditioners, but it is a good idea to buy at least SEER 13. Aside from its better energy efficiency (i.e. lower cooling bills) and less damage to the environment, further down the road you won't have the difficulty and increased expense of trying to find parts for an outdated system.

Energy Star means energy-efficient

To ensure that you are getting a system with exceptional energy efficiency, buy a unit with an Energy Star label affixed. Energy Star is a program developed jointly by the U.S. Environmental Protection Agency and the U.S. Department of Energy to promote the use of appliances that reduce energy consumption and have less negative impact on the environment. According to the EPA, an air conditioner that qualifies for Energy Star, which is properly sized and installed, with a properly sealed duct system, will save you 20 percent in energy costs compared to other new, conventional systems.

Business Appliance Repair


Businesses use a variety of electronic appliances like cash registers, display consoles, computing workstations, photocopiers, fax machines and the like. Businesses generally prefer calling in a pro appliance repair person as any loss of work due to a faulty appliance is bad for business. It can mean a financial loss and loss of face by not being able to keep commitments. The latter is more detrimental for a business.

Appliance manufacturers are themselves a good source for locating good service personnel. Most major appliance companies have their own servicing division that even offer after service guarantee. As business appliances see heavy usage it is advisable to go in for a service contract that will ensure smooth functioning of the appliances.

With more and more sophisticated appliances entering the market repairing skills need to be honed at a similar pace. Sensing devices, microprocessors and the like have become a part of several appliances. Hence a person dealing in appliance repair needs to be well versed in electronics.

Whenever an appliance is purchased one of the major points of evaluation is the after sales service. So many companies offer the services of technicians who provide quality repair services. And as the repair is done via the company, spare parts are easily available. It makes good business sense to go in for a service contract for a stipulated period. The contract rates will depend upon the cost of the appliance and the time duration involved. Businesses can also avail of technical advice as to when to upgrade or change an appliance. The factors to be considered would be age of the appliance, repair cost involved and the features of the newer model.

"The cartridge carrier does not move across", or "fax copies are not clear", or "the Xerox machine is not scanning properly" - Innumerable questions like these are part of normal business day. If you are a die-hard do-it-yourself enthusiast you may be tempted to roll up your shirt sleeves and get to work with a manual at hand for reference. It might even work. But not every time. Your time can probably be used in a more beneficial way for your business, so it would be wiser to pick up the phone and call in the experts.

Modern Heating Methods Fall Back On Ancient Systems


The advances being made with central heating today actually find their roots back in ancient times. People would be surprised to know that Romans used central heat and were not the first. Heat systems have been around for a long time because they are so very important to humankind.

Mechanical engineering includes a subdivision called HVAC. This stands for a combination of services a business might offer, namely heating, ventilation as well air conditioning. Many business owners will chose to drop ventilation from their list of services but might offer refrigeration services instead.

One of the most popular ways to warm a public building or a private home is centralized heat. Using forced air and ductwork is great because during warmer weather the ductwork can also be used for central air conditioning. If water is being used to heat a building centrally, it will have piping instead of ducts.

While most people imagine a radiator when thinking of what heats their homes, in truth convection is the main method of how heat gets around a home and does its important work. Convection involves the transfer of a heated fluid via either its own natural buoyancy or a mechanical pump. The heated fluid is then moved around the home through some forced transfer system.

One of the benefits of central heat is that it warms up not just the floors but often the walls of a building. Evidence has been found as far north as Alaska and Asia of people using the smoke from their furnaces to heat their floors. Trenches were built into the stone floors of these homes, similar to the Roman practice of hypocausts. Hypocausts used a furnace to distribute heat through floors and walls in times long gone by.

It is a fact that Romans were not the first to use central heat in the more southern parts of the European world. Pakistan and other eastern countries used similar methods. Northern Africa, Western Asia and much of the Roman Empire relied on central heat. However, as the Romans began to fade from glory, so too did some of their greatest technological advances. Britain was without central heat until the early 1900s.

Central heating adds a certain luxury and feeling of indulgence to a new home when it's being designed. Despite how advanced it might seem, it's also one of the best choices. Many people are unaware of how their venting systems work with other heat methods. The vents that are placed in the coldest parts of a house are actually trying to warm up the condensation filled air that forms near glass. People often redirect this heat away from windows, defeating the vent's purpose.

A critical home building consideration, heating is very important to take seriously. It matters less that it's radiant heat or true convection, and more that it is a centralized system. The Romans knew what they were doing in this aspect and it's important to look to the ancients many times when considering modern technology.

The Airbus A-310


Seeking to complement its original, although larger-capacity, A-300 on thinner sectors with a low-cost, minimally redesigned counterpart and thus expand its product range, Airbus Industrie explored a shorter-fuselage version designated "A-310."

A consortium of European aircraft manufacturers headquartered in Toulouse, France, Airbus Industrie itself had arisen because the design and marketing of an advanced, widebody airliner had exceeded the financial strength of any single, Europe-based company, the principle ones of which had included de Havilland with the DH.106 Comet, Vickers with the VC-10, Hawker Siddeley with the HS.121 Trident, and the British Aircraft Corporation with the BAC-111 in the United Kingdom, and Sud-Aviation with the SE.210 Caravelle and Dassault-Breguet with the Mercure 100 in France.

The A-300, its first joint design, not only signaled its launch as an aircraft manufacturer, but that of the aircraft itself and the concept it represented-a large-capacity, widebody, twin-engined "airbus." Intended to compete with Boeing, and particularly with its still-envisioned 767, it provided a non-US alternative to continental carriers and a foundation on which a European commercial product range could be built, offering the first serious challenge to both Boeing and McDonnell-Douglas.

Intended for short- to medium-range, relatively high-capacity deployment, the aircraft featured a widebody fuselage mated to two high bypass ratio turbofans whose thrust capability and reliability, coupled with a high-lift wing, had served as the key elements of its design.

Obviating the need for a third powerplant characteristic of the 727, the DC-10, and the L-1011, the twin-engine configuration yielded numerous economic benefits, including the reduction of structural and gross weights, the reduction of maintenance costs, the elimination of the additionally required fuel lines, the introduction of structural simplicity, and the reduction of seat-mile costs.

Aerodynamically, the twin-engine design also resulted in several advantages. The wings, mounted further forward than feasible by a tri-engine configuration, increased the moment-arm between the pylon-slung turbofans/center-of-gravity and its tail, thus requiring smaller horizontal and vertical stabilizers to maintain longitudinal and yaw-axis control and indirectly reducing structural weight and drag, yet maintaining certifiable control during single-engine loss, asymmetrical thrust conditions.

Designed by the Hawker Siddeley team in Hatfield, the 28-degree sweptback, supercritical wing, built up of a forward and rear full and mid half-spar, produced the greater portion of its lift over its aft portion, delaying shock wave formation and reducing drag.

Low-speed lift was augmented by full-span, engine pylon-uninterrupted leading edge slats, which increased the aircraft's take off weight capability by some 2,000 pounds, and tabbed, trailing edge Fowler flaps, which extended to 70 percent of their travel before rotating into camber-increasing profiles, resulting in a 25-percent larger chord.

Part of the reason for engine reliability had been the auxiliary power unit's integration into the main electric, air conditioning, and starting systems, providing immediate back-up in the event of engine failure at altitudes as high as 30,000 feet.

The A-300's widebody fuselage provided the same degree of twin-aisle comfort and loading capability of standard LD3 baggage and cargo containers as featured by the quad-engined 747 and the tri-engined DC-10 and L-1011.

Seeking to build upon these design strengths, yet decrease passenger capacity with a foreshortened fuselage and expand its market application, Airbus Industrie conceptionally studied and proposed nine potential aircraft varying in capacity, range, and powerplant number and designated A-300B1 to -B9 based upon the initial A-300 platform.

It was the tenth, however-designated A-300B10-which most optimally catered to carriers' needs for a 200-passenger airliner for segments with insufficient demand to support its larger counterpart and for those which merited additional frequencies, such as during off-peak times. Other than the two original prototype A-300B1s and the three-frame longer A-300B2, the aircraft had only offered a single basic fuselage length, whose capacity partially accounted for initially sluggish sales.

Although a low-cost A-300B10MC "Minimal Change" entailed mating a shorter fuselage with the existing wing, powerplants, and tailplane would have provided few engineering obstacles, it would have resulted in an aircraft proportionally too small and heavy for the A-300's original surfaces. Despite a lower structural weight, it would have offered insufficient internal volume for revenue-generating passenger, cargo, and mail payload to eclipse its direct operating costs (DOC).

Balancing both the superior performance and the minimized development cost sides of the program's equation, Airbus Industrie considered two possible approaches:

1). The A-300B10X, which employed a new wing designed by the since-amalgamated British Aerospace in Hatfield with smaller leading and trailing edge, high-lift devices.

2). The A-300B10Y, which utilized the existing A-300 wing box, with some modifications.

Lufthansa, the envisioned launch customer, strongly advocated the former approach, because of the reduced costs associated with a redesigned, more advanced airfoil, and, together with Swissair, which equally contemplated an order for the type, detailed performance specifications. Placing deposits for 16 A-300B10s, which were concurrently redesignated "A-310s," in July of 1978, both airlines expected a final configuration by the following March.

The aircraft, which sported a 12-frame shorter fuselage for 767-like, 245-passenger accommodation, first appeared at the Hanover Air Show in model form.

Its wing, retaining the 28-degree sweepback of the A-300's, featured a shorter span and a consequent 16-percent reduced area, eliminating its center, half-spar and therefore offering equal, front and rear spar load distribution. The spars themselves, with 50 percent greater depth, were stronger, yet decreased structural weight by more than five tons. Its revised shape, requiring a new center section, introduced a double-curved profile, its metal, bent both span- and chord-wise, requiring shot-peening manufacturing techniques to form.

The increased-chord and -radius leading edge slats, necessitating a new cut-out over the engine pylon, improved take off performance, while the former, inner-tabbed, trailing edge Fowler flap panels were integrated into a single-slotted one with increased rearward movement. The two outer panels, also combined into a single panel, decreased cruise drag.

Lateral control, no longer necessitating the A-300's outboard ailerons, was maintained by the inboard ailerons operating in conjunction with the spoilers.

The tailplane, a scaled-down version of the A-300's, featured reduced separation between the upper surface of its elevator and the horizontal stabilizer, in order to decrease drag, and a redesigned tailcone permitted optimized internal cabin volume.

Powerplant choices included the 48,000 thrust-pound General Electric CF6-80A1 and the equally powered Pratt and Whitney JT9D-7R4D1, while the Rolls Royce RB.211-524D was optionally available, although no carrier ever specified it.

Both potential launch customers, round whose specifications the foreshortened version took shape, placed orders, Swissair ordering ten Pratt and Whitney-powered aircraft on March 15, 1979, Lufthansa placing 25 firm and 25 optioned orders for the General Electric-powered variant on April 1, and KLM Royal Dutch Airlines mimicking this order with ten firm and ten options two days later, also for the General Electric version, thus signaling the program's official launch.

Three basic versions, varying according to range, were then envisioned: the short-range, 2,000-mile A-310-100; the medium-range, 3,000-mile A-310-200; and the long-range, 3,500-mile A-310-300.

Final assembly the first two Pratt and Whitney-powered A-310-200s, with construction numbers (c/n) 162 and 163, commenced in the Aerospatiale factory in Toulouse during the winter of 1981 to 1982, continuing, not reinitiating, the A-300 production line numbering sequence. Major sectors, components, parts, and powerplants were fabricated by eight basic aerospace companies: Deutsche Airbus (major fuselage portions, the vertical fin, and the rudder), Aerospatiale (the front fuselage, the cockpit, the lower center fuselage, and the engine pylons), British Aerospace (the wings), CASA (doors and the horizontal tail), Fokker (the wing moving surfaces), Belairbus (also the wing moving surfaces), General Electric (the engines), and Pratt and Whitney (also the engines). Fokker and Belairbus were Airbus Industrie associate members.

Transfer to the final assembly site was facilitated by a fleet of four, 4,912-shaft horsepower Allison 501-D22C turboprop-powered Aero Spacelines Super Guppys, which had been based upon the original, quad piston-engined B-377 Stratocruiser airliners, requiring eight flights collectively totaling 45 airborne hours and covering some 8,000 miles for A-310 completion. The transports were re-dubbed "Airbus Skylinks."

A-310 customer furnishing, including thermal and noise insulation; wall, floor, and door cladding; ceiling, overhead storage compartment, and bulkhead installations; and galley, lavatory, and seat addition, according to airline specification of class divisions, densities, and fabrics, colors, and motifs, occurred in Hamburg Finkenwerder, to where all aircraft were flown from Toulouse.

The first A-310, registered F-WZLH and wearing Lufthansa livery on its left side and Swissair livery on its right, was rolled out on February 16, 1982. Powered by Pratt and Whitney turbofans, it only differed from production aircraft in its internal test equipment and retention of the A-300's dual, low- and high-speed aileron configuration.

Superficially resembling a smaller A-300, however, it incorporated several design modifications.

The 13-frame-shorter fuselage, rendering an overall aircraft length of 153.1 feet, incorporated a redesigned tail and a relocated aft pressure bulkhead, resulting in a cabin only 11 frames shorter, and access was provided by four main passenger/galley servicing doors and two oversize type 1 emergency exits. These measured four feet, 6 3/4 inches high by two feet, 2 1/2 inches wide.

The A-310's wing box, a two-spar, multi-rib metal structure with upper and lower load-carrying skins, introduced new-purity aluminum alloys in its upper layer and stringers, which resulted in a 660-pound weight reduction, but otherwise retained the larger A-300's ribs and spacings. Almost blended with the fuselage's lower curve at its underside root, the airfoil offered a greater thickness-chord ratio, of 11.8, as opposed to its predecessor's 10.5, reducing the amount of wing-to-body interference ordinarily encountered at high Mach numbers, yet it afforded sufficient depth at the root itself to carry the required loads at the lowest possible structural weight and simultaneously provided the greatest amount of integral fuel tankage.

Low-speed lift was attained by means of the three leading edge slat panels and a single Krueger flap located between the inner-most slat and the root, and inboard, vaned, trailing edge Fowler flaps and a single outboard Fowler flap panel.

Although the first two A-310s retained the A-300's outboard, low-speed ailerons, they quickly demonstrated their redundancy, roll control maintained by means of all-speed, trailing edge ailerons augmented by three electrically-activated, outer spoilers, which extended on the ground-angled wing. The four inner spoilers served as airbrakes, while all seven, per wing, extended after touchdown to serve as lift dumpers.

Engine bleed air or that from the auxiliary power unit (APU) provided icing protection.

Engine pylons were positioned further inboard then those of the comparable A-300, and the nacelles protruded further forward.

With a 144-foot span, the wings covered a 2,357.3-square-foot area and had an 8.8 aspect ratio.

Although the A-310 retained the A-300's conventional tail, it featured a horizontal stabilizer span reduction, from 55.7 to 53.4 feet, with a corresponding decease from 748.1 to 688.89 square feet, while its vertical fin rendered an overall aircraft height of 51.10 feet.

Power was provided by two 48,000 thrust-pound Pratt and Whitney JT9D-7R4D1 or two 48,000 thrust-pound General Electric CF6-80A1 high bypass ratio turbofans, either of which was supportable by the existing pylons, and usable fuel totaled 14,509 US gallons.

The hydraulically actuated tricycle undercarriage was comprised of a twin-wheeled, forward-retracting, steerable nose wheel, and two, dual tandem-mounted, laterally-retracting, anti-skid, Messier-Bugatti main units. Their carbon brakes resulted in a 1,200-pound weight reduction.

The smaller, lighter, and quieter Garrett GTCP 331-250 auxiliary power unit offered lower fuel consumption than that employed by the A-300, and the aircraft featured three independent, 3,000 pound-per-square-inch hydraulic systems.

The A-310's cockpit, based upon its predecessor's, incorporated the latest avionics technology and electronic displays, and traced its origin to the October 6, 1981 first forward-facing cockpit crew (FFCC) A-300 flight, which deleted the third, or flight engineer, position, resulting in certification to this standard after a three-month, 150-hour flight text program. That aircraft thus became the first widebodied airliner to be operated by a two-person cockpit crew.

The most visually-apparent flight deck advancement, over and above the number of required crew members, had been the replacement of many traditional analog dials and instruments with six, 27-square-millimeter, interchangeable cathode ray tube (CRT) display screens to reduce both physical and mental crew workload, subdivided into an Electronic Flight Instrument System (EFIS) and an Electronic Centralized Aircraft Monitor (ECAM), which either displayed information which was necessary or which was crew-requested, but otherwise employed the dark-screen philosophy. Malfunction severity was indicated by color-white indicating that something had been turned off, yellow indicating potentially required action, and red signifying immediately-needed action, coupled with an audible warning.

Of the six display screens, the Primary Flight Display (PFD), which was duplicated for both the captain and the first officer, and the Navigation Display (ND), which was equally duplicated, belonged to the Electronic Flight Instrument System, while the Warning Display (WD) and the Systems Display (SD) belonged to the Electronic Centralized Aircraft Monitor.

The Primary Flight Display, viewable in several modes, offered, for example, an electronic image of an artificial horizon, on the left of which was a linear scale indicating critical speeds, such as stick shaker, minimum, minimum flap retraction, and maneuver, while on the right of it were altitude parameters.

The Navigation Display screen, below that of the Primary Flight Display, also featured several modes. Its map mode, for instance, enabled several parts and scales of a compass rose to be displayed, such as its upper arc subdivided into degrees, with indications of course track deviations, wind, tuned-in VOR/DME, weather radar, the selected heading, the true and indicated airspeeds, the course and remaining distance to waypoints, primary and secondary flight plans, top-of-descent, and vertical deviations.

The autopilot possessed full control for Category 2 automatic approaches, including single-engine overshoots, with optional Category 3 autoland capability.

The collective Electronic Centralized Aircraft Monitor, whose two display screens were located on the lower left and right sides of the center panel, continually screened more than 500 pieces of information, indicating or alerting of anomalies, with diagrams and schematics only appearing during flight phase-relevant intervals, coupled with any necessary and remedial actions. The Systems Display, located on the right, could feature any cockpit crew member-selected schematic at any time, such as hydraulics, aileron position, and flaps.

Two keyboards on the center pedestal interfaced the flight management system (FMS).

The flight control system, operating off of two Arinc 701-standard computers and essentially serving as autopilots, drove the flight director and speed reference system, and was operable in numerous modes, inclusive of auto take off, auto go-around, vertical speed select and hold, altitude capture and hold, heading select, flight level change, hold, heading hold, pitch, roll/attitude hold, and VOR select and homing.

The thrust control system, operating off of an Arinc 703-standard computer, provided continuous computation and command of the optimum N1 and/or engine pressure ratio (EPR) limits, the autothrottle functions, the autothrottle command for windshear protection, and the autothrottle command for speed and angle-of-attack protection.

Unlike earlier airliners, the A-310 replaced the older-technology pilot command and input transmission by means of mechanical, cable linkages with electronic bit or byte signaling.

Retaining the A-300's fuselage cross-section, the A-310 featured a 109.1-foot-long, 17.4-foot-wide, and seven-foot, 7 3/4-inch high cabin, resulting in a 7,416-cubic-foot internal volume, whose inherent flexibility facilitated six-, seven-, eight-, and nine-abreast seating for first, business, premium economy, standard economy, and high-density/charter configurations and densities, all according to customer specification. Typical dual-class arrangements included 20 six-abreast, two-two-two, first class seats at a 40-inch pitch and 200 eight-abreast, two-four-two, coach seats at a 32-inch pitch, or 29 first class and 212 economy class passengers at, respectively, six-abreast/40-inch and eight-abreast/32-inch densities. Two hundred forty-seven single-class passengers could be accommodated at a 31- to 32-inch pitch, while the aircraft's 280-passenger, exit-limited maximum, entailed a nine-abreast, 30-inch pitch arrangement.

Standard configurations included two galleys and one lavatory forward and two galleys and four lavatories aft, with encloseable, handrail-equipped overhead storage compartments installed over the side and center seat banks.

The forward, lower-deck hold, measuring 25 feet, 1/2 inch in length, accepted three pallets or eight LD3 containers, while the aft hold, running 16 feet, 6 1/4 inch in length, accepted six LD3 containers. The collective 3,605 cubic feet of lower-deck volume resulted from the 1,776 cubic feet in the forward compartment, the 1,218 in the aft compartment, and the 611 in the bulk compartment, which only accepted loose, or non-unit load device (ULD), load.

Powered by two General Electric CF6-80C2A2 engines and configured for 220 passengers, the A-310-200 had a 72,439-pound maximum payload, a 313,050-pound maximum take off weight, and a 271,150-pound maximum landing weight. Range, with international reserves for a 200-nautical mile diversion, was 4,200 miles.

The A-310-200 prototype, flown by Senior Test Pilot Bernard Ziegler and Pierre Baud, took to the skies for the first time on April 3, 1982 powered by Pratt and Whitney JT9D turbofans, and completed a very successful three-hour, 15-minute sortie, during which time it attained a Mach 0.77 airspeed and a 31,000-foot altitude. After 11 weeks, 210 airborne hours had been logged.

The second prototype, registered F-WZLI and also powered by Pratt and Whitney engines, first flew on May 3, completing a four-hour, 45-minute flight, and the third, powered by the General Electric CF6 turbofans for the first time, shortly followed, the five aircraft demonstrating that the A-300-morphed design had far more capability than originally calculated. Drag measures were so low, in fact, that the cruise Mach number was increased from the initially calculated 0.78 to a new 0.805, while the buffet boundary was ten-percent greater, permitting a 2,000-foot-higher flight level for any gross weight to be attained, or a 24,250-pound greater payload to be carried. Long-range fuel consumption was four percent lower.

The Airbus A-310 received its French and German type certification on March 11, 1983 for both the Pratt and Whitney- and General Electric-powered aircraft and Category 2 approaches, and a dual-delivery ceremony, to Lufthansa German Airlines and Swissair, occurred on March 29 in Toulouse. It became the European manufacturer's second aircraft after that of the original A-300.

Lufthansa, which had operated 11 A-300B2s and -B4s and had inaugurated the larger type into service seven years earlier, on April 1, 1976, from Frankfurt to London, followed suit with the A-310-200 on April 12, 1983, from Frankfurt to Stuttgart, before being deploying the type to London later that day. It replaced its early A-300B2s.

Swissair, which, like Lufthansa, had been instrumental in its ultimate design, inaugurated the A-310 into service nine days later, on April 21. Of its initial four, three were based in Zurich and one was based in Geneva, and all were used on high-density, European and Middle Eastern sectors, many of which had previously been served by DC-9s.

A convertible variant, featuring a forward, left, upward-opening main deck cargo door and loading system, was designated A-310-200C, the first of which was delivered to Martinair Holland on November 29, 1984.
By March 31, 1985, 56 A-310s operated by 13 carriers had flown 103,400 revenue hours during 60,000 flights which had averaged one-hour, 43 minutes in duration.

Demand for a longer-range version precluded A-310-100 production, but resulted in the second, and only other, major version, the A-310-300.

Launched in March of 1983, it introduced several range-extending design features.

Wingtip fences, vertically spanning 55 inches and featuring a rear navigation light fairing, extended above and below the tip, extracting energy from unharnassed vortices created by upper and lower airfoil pressure differential intermixing, and reduced fuel burn by 1.5 percent. The device was first flight-tested on August 1, 1984.

Increased range capability, to a far greater extent, resulted from modifying the horizontal stabilizer into an integral trim fuel tank. Connected to the main wing tanks by double-walled pipes and electrically driven pumps, the new tank was contained in the structurally strengthened and sealed horizontal stabilizer wing box, storing five tons of fuel and shifting the center-of-gravity over 12- to 16-percent of the aerodynamic chord. The modification, requiring minimal structural change to an aerodynamic surface beyond the pressurized fuselage, offered numerous advantages over the increase in range, including Concorde-reminiscent, in-flight fuel transferability to effectuate optimum trims, and an aft center-of-gravity to reduce wing loading, drag, and resultant fuel burn. A trim tank computer controlled and monitored center-of-gravity settings, and the amount of needed fuel could be manually selected during the on-ground refueling process.

Structure weight had been decreased by use of a carbon-fiber vertical fin, resulting in a 310-pound reduction. The A-310 had been the first commercial airliner to employ such a structure.

Total fuel capacity, including that of the trim tank, equaled 16,133 US gallons, while up to two supplementary tanks could be installed in the forward portion of the aft hold, increasing capacity by another 1,902 US gallons.

In order to permit extended-range twin operations (ETOPS), a certification later redesignated extended-range operations (EROPS), the aircraft was fitted with a hydraulically-driven generator, increased lower-deck fire protection, and the capability of in-flight APU starts at minimum cruising altitudes.

Powered by General Electric CF6-80C2A8 turbofans and carrying 220 dual-class passengers, the A-310-300 had a 71,403-pound payload capability and a 330,675-pound maximum take off weight, able to fly 4,948-mile nonstop sectors.

First flying on July 8, 1985, the type was certified with Pratt and Whitney JT9D-7R4E engines six months later, on December 5, while certification with the General Electric CF6-80C2 powerplant followed in April of 1986.

Four of Swissair's ten A-310s, which were operated on its Middle Eastern and West African routes, were -300 series.

The A-310-300 was the first western airliner to attain Russian State Aviation Register type certification, in October of 1991.

Although it had initially been intended as a smaller-capacity, medium-range A-300 complement, the design features incorporated both conceptually and progressively resulted in a very capable twin-engine, twin cockpit crew, widebody, intercontinental airliner which, in its two basic forms, served multiple missions: an earlier-generation Boeing 707 and McDonnell-Douglas DC-8 replacement; a Boeing 727 replacement on maturing, medium-range routes; a DC-10 and L-1011 TriStar replacement on long, thin sectors; an A-300 replacement on lower-density segments; an A-300 complement during off-peak times; and a European competitor to the similarly-configured Boeing 767, enabling Airbus Industrie to describe the type as follows: "The A-310's optimized range of up to 5,000 nautical miles (9,600 km) is one of the parameters that has made it the ideal 'first widebody' aircraft for airlines growing to this size of operation."

Singapore Airlines had been the first to deploy the A-310-200 on long-range overwater routes in June of 1985, covering the 3,250-mile sector between Singapore and Mauritius, although the aircraft had not been EROPS-equipped, that distinction reserved for Pan Am, which had connected the 3,300 miles over the North Atlantic from New York/JFK to Hamburg the following April.

During that year, the A-310-200 became available with wingtip fences, first deliveries of which were made to Thai Airways International, and the A-310-300 was progressively certified with uprated engines and increased ranges, a 346,125-pound gross weight producing a 5,466-mile range capability and a 361,560-pound gross weight producing a 5,926-mile range, all with General Electric engines. Pratt and Whitney turbofan-powered aircraft offered even greater ranges.

The first EROPS-equipped A-310-300 with JT9D-7R4E engines, was delivered to Balair on March 21, 1986, and its range capability, with 242 single-class passengers and a 337,300-pound gross weight, exceeded 4,500 miles.

By the end of that month, the A-310 fleet had collectively logged more than 250,000 hours.

A post-production cargo conversion of the A-310-200, designated A-310-P2F and performed by EADS EFW in Dresden, Germany, entailed the installation of a forward, left, upward-opening door, which facilitated loading of 11 96 x 125-inch or 16 88 x 125-inch main deck pallets, while three of the former and six LD3 containers could be accommodated on the lower deck. With an 89,508-pound payload and a 313,055-pound maximum take off weight, the freighter offered 10,665 cubic feet of internal volume.

The last of the 255 A-310s produced, an A-310-300 registered UK-31003, first flew on April 6, 1998 and was delivered to Uzbekistan Airways two months later, on June 15. Although Airbus Industrie had contemplated offering a shorter-fuselage version of the A-330, the A-330-500, as a potential A-310 replacement, its range and capacity had proved too high to assume its mission profiles. Resultantly, no definitive design ever succeeded it.