By comparison, AC Window Units use approximately 500 to 1,500 watts of electricity. Keep in mind that it takes more than one AC window unit to cool a home. You'll need one for each room of the house you want to reduce the temperature. Here's an ice cube for your glass!
In a midsize window air conditioner, you'll draw approximately 900 watts per hour and use nearly 130 to 150 kilowatt-hours of electricity each month.
EnergySage estimates that a typical window unit costs roughly $320 (CAD 428) per year to run in areas with a 5-month hot season. Therefore, running a window AC will likely add around $27 (CAD 36) on average to your monthly energy bill.
They're less efficient than central AC and will drastically increase your electricity bills. On average it costs 52 cents per day for a 5,000 BTU window unit and $1.14 per day for a 12,000 BTU unit. It's hard to prevent any gaps and drafts with window AC units.
Cooling yourself with a fan vs. an air conditioner is significantly more energy efficient and cheaper. Fans use around 1% of the electricity consumed by air conditioners. You could leave a fan running for 24 hours and still use less energy than 15 minutes of air conditioning.
In fact, they can run for years if they are properly maintained. However, leaving a window AC unit running nonstop could reduce its overall efficiency and lifespan if not used smartly.
Cons to Keeping Fan Continuously Running:
It could cost you hundreds of dollars a year. The average unit has a 500 watt fan, which uses almost as much energy over the course of the year as a refrigerator, resulting in a $50/month bill.
Window AC Units Aren't Energy Efficient
Compared to newer central air systems or ductless mini split options, many window AC units are not energy efficient. Some of the newer window units can be a bit more efficient than older models, but on the whole, these systems aren't very efficient.
The biggest determinant in how long you should run your AC is whether your home uses central air or a wall/window unit. In general, wall and window air conditioning units with smaller capacities can typically run for up to eight hours at a time before they need to rest.
The cost to run a window air conditioner is $0.06 to $0.88 per hour at $0.13 kWh. Unit size, location, hourly usage, and EER will impact the actual average cost. Formula to calculate an accurate estimate: Watts * (hours used) / 1,000 * (Local kWh) = daily cost of running a window unit.
Your air conditioning system is one of the biggest culprits behind skyrocketing electric bills. When your air filter is dirty, refrigerant levels are low, your thermostat is faulty or you lack proper maintenance, your A/C system can end up using a lot more energy than it should.
During the hot summer months, one effective way to increase the energy efficiency of your window air conditioner is by utilizing curtains or blinds to block sunlight. This simple yet effective method can help keep your room cool and reduce the strain on your AC unit.
Heating and cooling: 45-50%
The largest electricity consumer in the average household is your heating and cooling appliance. By a long shot. Central air conditioners and heaters use tons of energy in order to keep your home set to the right temperature.
Air conditioners can cost anywhere between $0.32 and $1.87 to run per hour depending on the type and where you live. Investing in one or more fans for your home can be a great idea to keep your cooling costs down this summer. The upfront cost may be a bit higher but it'll pay itself in no time.
Window air conditioners are mostly situated outside, and the hot air is sucked directly out of the room. Portable units rely on an exhaust hose to get the hot air from the AC to the outdoors. Much of the heat escapes from the poorly insulated hose back into the room before it can make it outside.
On average, a well-maintained and high-quality window AC unit can last anywhere from 10 to 20 years. However, this is just an estimate, and individual units may deviate from this range due to different circumstances.
As it turns out, the most efficient way to keep your home cool and the bills low is to leave the AC running—ideally, with the temperature turned up toward the upper 70s.
Best AC Temperature Settings While You Are Home
As you consider the most comfortable room temperature for your lifestyle and family, keep in mind that for each degree that you set your thermostat above 72 degrees, you can save up to 3% on your energy bill.
The short answer is yes, it's more cost-effective to keep your air conditioner on all day. However, don't take this as a green light to crank it up to the max 24/7! There's a smart way to go about it, which we'll delve into in a moment. So, why is it cheaper to leave your AC on?
If you're wondering whether a central air conditioner is a lot more energy savvy than window types then the answer, quite simply, is yes. Central air conditioning systems are more energy-efficient than window air conditioners, meaning you'll save money on your monthly energy bill.
A window AC that is shaded can run at 30% less electricity to cool down a space, compared to a unit that is placed in direct sunlight. Place your unit where the air flow can move about freely. In other words, don't install your unit behind a piece of furniture or place anything directly in front of it.
A basic window unit typically has a lower initial cost than other models and is relatively easy to install, but they guzzle energy, straining electricity grids, and can contribute to the planet-warming emissions driving extreme heat. Here's how standard window air conditioners stack up against other cooling options.
This reduces the cost of operation by a considerable degree. Whole-house fans and ceiling fans are among the most energy-efficient methods for cooling your home. They use between one-fourth to one-hundredth of the electrical power required for AC units.
The primary benefit of running your HVAC fan consistently: Air circulation improvements. Running the fan more often means air in your home circulates faster, leading to everything from more even temperature distribution to faster heating or cooling.
A typical AC fan motor uses about 500 watts when it's running. Therefore, if you run the fan continuously for a 30-day month (720 hours), you would use 360,000 watt hours (720 x 500) or 360 kilowatt hours (kWh). Therefore, the fan uses about 360 kWh per month in the ON mode.