People flock to Florida for its beauty and unique way of life that includes such a broad variety of characteristics across the state. Warm winters, sandy Atlantic and Gulf beaches, natural features, friendly people and many other things about the Sunshine State draw residents, and as different as everyone and their lifestyles may be, they all share a few things in common: The heat and a constant quest in the summer to feel cool, yet not break the budget.
The cost to run an air conditioner in Florida can present a challenge for any household, and shows up as kilowatt hours (kWh) used per day and per month. Dollars used for cooling a home in Florida can make up a significant part of the home budget:
Some families sacrifice a lot to stay cool during the long summers, and people normally run their systems from April through September. Any Floridian can benefit from a little AC education, because it’s the first step toward a lower electric bill in summer.
Annual electricity expenses in Florida are 40% higher than in the rest of the United States. About 27% of Floridians’ electricity usage is the air conditioner, and the annual expense for their electricity in 2009 averaged nearly $2,000. This figure has probably grown since then.
It can literally pay to know your cooling options, what each option entails, how different systems work, average consumption and costs, basic operations and what is not recommended. The air conditioning bill in summer is the electricity bill in Florida, and just about all options except for the natural breeze have a cost attached.
One basic, often-misunderstood fact is that there is a scientific difference between cooling air and conditioning it, as well as what happens with your body during both processes. Both involve air flow and feeling better, so it’s easy to think of them as the same thing, but there are distinct differences between the two.
True conditioned air results from a combination process that involves both cooling the air and removing the humidity from it. Cooling the air usually involves increased air flow and perhaps a mechanism, process or feature that makes the air feel cooler.
An air conditioner draws in outside air and runs it over super-cooled evaporator coils that contain refrigerant, and those work together to extract heat and humidity from the air. The resulting cool, dehumidified air is then blown through the vents to keep you comfortable.
As the refrigerant works, it changes from a liquid to a gas. A compressor pump sends the refrigerant back outside to the condenser coil, which condenses it from a gas back to a liquid, which drains into a pan. An all-important motor runs the compressor to generate the energy to turn the fan, push the coolant and propel the air, among other things.
Air conditioning capacity is measured in tons and BTUs. The expression “ton” hearkens back to when we measured refrigeration in terms of how many tons of ice it could freeze in a day. BTU stands for British thermal unit, and is a standard expression of an air conditioner’s cooling power. A single BTU is basically how much energy your air conditioner uses to reduce the temperature of one pound of water by one degree F.
Electricity gives the air conditioning unit the power it needs to generate the cooling BTUs, and how much electricity you are using is expressed as kilowatts per hour (kWh). To figure costs, you also need to know about amperes, watts and volts.
The amount you need, and will end up using, depends on many different factors, such as the size and configuration of your home and your personal preferences. It’s possible to do rough calculations of how much energy an air-conditioning system uses and how much it costs. The same formulas and equations can be used to get specific, too, since your air conditioner should have a label that shows things like amperage, volts, watts and other factors you need to consider.
You can take the amp number and multiply it by the outlet voltage needed to power the system you have. For a central air conditioning unit, a 240-volt outlet would be standard, while for a window-unit air conditioner, a 110-volt outlet would be used. Once you know the amps and volts, you can figure out the watts.
Using a 3-ton air conditioner for the equation: 18 amps x 240 volts = 4,320 watts.
The kilo in kilowatt, of course, stands for 1,000, so you divide that into the number of watts to get the number of kilowatt hours: In this case, 4.32.
If you’re interested in estimating what your bill could or should be, based on your system’s capacity, you can multiply the number of kilowatt hours by your provider’s price per kWh. For Florida, you can count on somewhere around 11 cents per kWh.
Following the example so far: 4.32 kWh x 11 cents per kWh= 48 cents per hour to run the air conditioning unit. Multiply that by 24 to figure how much it would cost for a day, but keep in mind that number represents continuous operation.
.48 x 24 = $11.52 per day (for continuous operation)
Multiply the daily cost by 30 to get the monthly cost: $11.52 x 30 = $345.60. A multiplier can account for how often your air conditioner will actually run, since most do not run 24 hours a day.
Assume an indoor temperature of 70 degrees F, a properly sized system and that the nighttime temperature probably drops by 20 degrees F, and then use the following multipliers dependent upon average temperatures in your area:
When average outdoor temperatures are 100 degrees F and indoor temperatures are around 70 degrees F, the equation looks like this: $345.60 x 0.4 = $138.24 per month.
You can also do your own in-home data collection by actually clocking the AC unit for two separate hours: Once in the heat of the day and once in the cool of the night. Basically, it’s a count of how many times it comes on in an hour and how long it runs each time, which produces numbers that enable you to average the operative hours and calculate the daily, monthly or yearly expense of your air conditioning bill during summer in Florida.
A central air conditioning system conditions the air and delivers it through vents throughout your home. It’s the most effective, but also the most expensive. A central air system uses the most electricity, but does the cooling job most effectively, as evidenced by the fact that 86% of people who live in Florida use central AC to cool their home.
Some of the latest developments include zone cooling, which means you can have different temperatures in different rooms and everyone gets their way with the thermostat. In general, a central air system used for eight hours a day for a month will use approximately 857 kWh.
Window-unit air conditioners also condition the air and blow it straight into the room in which a window sits. There are other systems and models available, such as ductless systems that mount through an outside wall and have a compressor/condenser outside and a blower inside. A 9,000-BTU/hour window-unit air conditioner that runs for approximately eight hours per day will use about 321 kWh in a month’s time.
Evaporative coolers use water-soaked material to cool air blown across it by a huge fan that delivers cooled air through a series of ducts or air pipes. The “swamp cooler” has evolved to come in models that address indoor humidity concerns, including indirect and hybrid coolers, but most still rely on a water evaporation process that tends to work better in dry climates than in humid ones. It undoubtedly adds humidity to the air, but does have significant cooling power for a fraction of the cost of other options. Some people prefer to have a little extra humidity and save more money in the long run.
An array of fans available will create air flow and aid cooling:
Every Floridian has a different tolerance level for the heat and a different preference for if, or when, air conditioning is needed. Nevertheless, most would likely agree that it feels good on the days that hover near the 100-degree mark and during hot, humid nights.
You can move a lot of air with fans and perhaps get a home to a comfortable temperature. The upside of course, is that fans are the least expensive air cooling option. A typical fan set on medium and running constantly would probably use only about 31 kWh per month.
Families, friends and neighbors inevitably compare notes about the Florida heat and the many creative ways in which people try to beat it cheaply. The truth is, most homemade solutions do little to actually condition the air and remove the notorious humidity that goes along with the heat of the Sunshine State.
For example, one of the popular do-it-yourself solutions includes using an ice chest full of ice with holes in the lid for an exhaust and a fan. Sure enough, cool air blows from the cooler, but the ice doing the job adds even more moisture to the air and can actually make the room hotter because of the additional humidity.
When building new or considering a modification to your home, thoughtful design can add quite a bit of comfort to a building, since the orientation and other physical aspects of a home can impact its interior temperature. It’s common to see Florida homes designed with such things as a long, east-west breezeway; windows up high and down low; and bigger roof overhangs for more shade.
Experts avoid the use of asphalt or concrete directly outside of exterior windows, because the material generates heat that transfers. Many people build with or get a heat-reflective roof that basically bounces the heat away instead of absorbing it. If you have skylights, it helps to install a shade along with them so they create the desired light without any unwanted heat. A solar tube is a similar option that allows in less light but also generates less heat.
Shade trees, south-facing windows and solar panels are other ways people try to work with nature to reduce the cost of cooling. You are likely to see these features incorporated into the designs of many older homes built before air conditioner became common, as well as more modern homes where design eases the burden on the AC unit.
Should you be building new or getting a new roof, you should know about radiant barriers. They are a foil-like layer that goes underneath the roof shingles to deflect heat.
Most people think the most important priority is to have the air conditioning
system working to the point that they feel cool and comfortable. That
might be true, though dollar-wise, the system’s operational efficiency
is the most important priority, and there are many factors that create
points of inefficiency:
Many are the factors that affect the proper functioning of your system, as well as the bottom line on your electric bill and kilowatt usage. The objective with efficiency is to get the maximum amount of cooling for the least amount of energy.
You can check out the seasonal energy-efficiency ratio (SEER) of the system you have or may get, as that gives a measure of its efficiency — specifically, how much cooling power it delivers for each kilowatt used. For example, if the system was a 10, it would deliver 10,000 BTUs of cooling power per kilowatt. Efficiency translates directly into fewer dollars spent on a summer air conditioning bill in Florida.
The main objective in the Florida summer is to keep the cool, conditioned air inside and the heat and humidity outside. It degrades system efficiency when the conditioned air escapes or outdoor air enters, and an inefficient system can cost you more money on your bill than you realize.
There are a number of steps you can take toward better efficiency:
Anytime you’re ready to replace, upgrade, improve, make greener, inspect, service or repair any kind air conditioning or cooling system, Del-Air Heating and Air Conditioning provides a full range of HVAC services. We can help with troubleshooting, maintenance, inspection, upgrades or new systems, efficiency improvements and the 20-point AC tune-up.
We sell and service every major HVAC system produced, and have expert technicians ready to deliver prompt, courteous service at competitive prices. Our customers enjoy peace of mind through our $500 low-price guarantee, rebate application service and financing options.
When people decide they want to do something, most want to do it just as soon as possible, and Del-Air’s culture of customer service means responsiveness, whether it’s for new system quotes, installation, service or maintenance. We can provide a quote in as little as 10 minutes, along with next-day installation of the quoted system.
Florida is a big, hot state and we respond to that with appropriate resources such as people, equipment, a fleet of service trucks, training and a business plan that has fostered growth for many years. Since Del-Air sells and services all major AC brands, we’re able to offer customers whichever system best suits their individual needs.
It’s admittedly pretty difficult to accurately answer the question: How much should a Florida air conditioning bill cost in the summer? Everyone’s response will be a little different depending on what part of Florida they live in and their indoor temperature preferences. Collecting some statistics on your system will not only help you track down problems, but also establishes a benchmark that helps you keep a watchful eye on your usage and costs. If anything changes for the better or worse, the data will help you know it. When you’re ready, give us a call!Florida is a big, hot state and we respond to that with appropriate resources such as people, equipment, a fleet of service trucks, training and a business plan that has fostered growth for many years. Since Del-Air sells and services all major AC brands, we’re able to offer customers whichever system best suits their individual needs.