How It Works
Each air conditioner has a compressor that compresses Freon gas, a refrigerant that is naturally cold. The gas runs through the coils at a high pressure and it becomes exceedingly hot. While running through the coils, the gas is competent to lose heat-it then become a liquid. The liquid (still Freon) passes through an elaboration valve where it now becomes cold and maintains a low pressure. The cold Freon now passes through a similar-looking set of coils and is competent to cool the air inside your home.
What Size Air Conditioner Do I Need for My House?
If you’re looking to save a little bit of money, you’re without apparent effort competent to figure out what size air conditioner you’ll need for your home with galore simple math. If you’re not fascinated in math at least you’re fascinated in being cool-so you’re more than willing to figure it out!
Odd! Measure the Floor?
Yes, you need to measure the floor of each room you wish to cool. Remember that cool air sinks and hot air rises. Don’t worry regarding height, but multiply the width by the length and add them together. This equation will give you your square footage-multiply this by 337 because there are 337 BTUs per square foot. Make sure you do not forget this number. Next, you’ll be measuring each and each window on the south side of your home figuring the square footage of each (width x height). Take that square footage and multiply it by 871 BTUs. Make sure you do the same for the north side windows and multiply them by 166. Add the two figures together and do not forget this number.
Yes! People matter, people not only take up space but they likewise take up cooled air. Get a count of how some persons who will be living in the area you would like to cool within your home. Each person generates their very own amount of BTUs totaling to around 400 each. Multiply the number of people by 400. Remember this number.
Lights Generate Heat…
Next you’ll be writing down the number of watts per light in your household and multiply that by 4.25 BTUs. If you have an 80 watt bulb it won’t generate the same amount as a 100 watt bulb. For instance, a 100 watt bulb generates 425 BTUs. If you have a ton of those, you’re in for a ton of energy being given off (and a bit of heat!) Now, back to your math-after you’ve finished each lights equation add the amounts together and do not forget this number.
And now for the next percentage of your house tour…
Do you have appliances? Of course you do. If not, you’re in for numerous luck-you’re in all likelihood going to need a littler unit than most of us! If you have gadgets that will be running in the cooled area check and see what the greatest or most complete or best possible wattage for the appliance is and multiply it by 3.15. You may find the wattage quintessentially on the interior doors, or the backs of the appliance. If you still cannot find it, look in the manual and if you exhaust each option call the manufacturer or look online. You’re in all likelihood thinking “why would I calculate the maximum?” You’ll want to calculate this because you unquestionably do not want an AC unit that may handle less than you need. Unfortunately they don’t work like that. Remember the number you’ve calculated for the appliance BTUs.
Take all of the numbers you remembered and add them together. Simple, right? This is your total BTUs-this is how numerous BTUs you need to have your air conditioner capable to handle and this will help you shop around for an air conditioner huge sufficient for your home!
- Amana Air Conditioner
- American Standard Air Conditioner
- Bryant Air Conditioner
- Carrier Air Conditioner
- Central Air Conditioners
- Comfortmaker Air Conditioner
- Gibson Air Conditioner
- Goodman Air Conditioner
- Heil Air Conditioner
- Janitrol Air Conditioner
- Lennox Air Conditioner
- Payne Air Conditioner
- Rheem Air Conditioner
- Ruud Air Conditioner
- Tempstar Air Conditioner
- Trane Air Conditioner
- Weatherking Air Conditioner
- York Air Conditioner