|A New Air Conditioner?|
For many in the U.S. this has been a scorching summer. Fortunately, about half of all homes have central air conditioning. The bad news is that it does cost money to run them. Central air conditioning and heat pumps rank third in total residential energy usage. Only heat and water heating consume more.
Let's take a look at three topics: air conditioner efficiency, selecting the right size air conditioner and buying a new system.
An air conditioner's efficiency is measured by it's SEER (Seasonal Energy Efficiency Ratio). The Department of Energy defines SEER as the total cooling in BTU's divided by the watts consumed. A higher SEER indicates a more energy efficient system.
Until 1979 the average central home air conditioning system had a SEER of 6.0. In the '90's a minimum standard of 10.0 was set. New, even higher standards, are being debated now.
As you might expect, an air conditioner with a higher SEER will cost more. The DOE estimates that a unit with a SEER of 13.0 will cost about 15% more than one with a SEER of 10.0. But that 13.0 unit will provide 30% more cooling per watt consumed.
Will a more efficient unit save enough to pay for the increased cost? The DOE thinks so. They figure that operating the 13.0 SEER unit vs. a 10.0 SEER one will save $113 more than the additional cost to purchase it. If you have web access you'll find the DOE's fact sheet on air conditioners at
Not for Donna, but if you live in a warmer climate you might even want to consider a higher efficiency unit with an SEER of 15.0 or more. It will cost more, but could pay dividends in areas requiring heavy air conditioning usage.
Remember that SEER only measures the efficiency of the air conditioner. It doesn't take into consideration how well your home is insulated, the condition of your ductwork or other factors that affect cooling.
Determining the correct size is a harder problem. Air conditioners are rated in Btu's/hour or in 'tons'. A ton is 12,000 Btu's/hour. A bigger air conditioner is not necessarily a better air conditioner. If a unit is too big it will cost more to buy, more to operate and won't do as good a job dehumidifying the air. According to The Consortium for Energy Efficiency (CEE), a national, non-profit public benefits corporation, a properly sized air conditioning system can reduce energy usage by up to 35%.
Determining the correct size isn't easy. It's not just a matter of calculating the volume of air that you need to cool. The climate, style of your home, number of windows, amount of insulation, weather stripping and shade as well as other variables all effect the size of the unit needed. It's hard to do the calculation yourself. You really need a professional. In fact, the industry has created a formula that considers all the variables.
The easiest way for Donna to get an idea of the correct size is to get three bids on a new system. Not only will that allow her to compare prices, it will also give her three estimates of how big a system is required.
Before calling for estimates she should do any insulation upgrades or weather-stripping since that will effect the calculation.
She'll also want to check with the local electric company before making a purchase. Many offer rebates when you buy a more energy efficient air conditioner. Don't forget to consider the repair record and the warrantee offered by the manufacturer.
Should Donna replace her air conditioner before it quits working? According to the DOE, a 13.0 SEER unit would only reduce the electric bill by $42 per year vs. a 10.0 SEER unit. Of course that's an average. If Donna's unit has a SEER of 8.0 and she replaces it with one at 12.0, she'll reduce her cooling bills by one third.
At 12 to 14 years old, the air conditioner is nearing the 15 year average life span. Donna might be wise to start shopping now while she has time to make a careful selection. Even if the new unit doesn't pay for itself right away it could be a wise purchase.