• A typical central air conditioner uses at least 2000 watts per hour, or 2kWh, and this may be on the smallish side.
• A newer, quiet and efficient whole house fan that moves air at the rate of 1530 cubic feet per minute uses 44 watts per hour, or 0.044kWh.
• 2000kWh/44kWh=45.45, so a whole house fan uses 45 times less energy than a central air conditioner using the above numbers.
• Therefore, the energy circle associated with the central air conditioning grows at a rate 45 times the amount of the energy circle associated with the whole house fan.  The circles grow at the same rate when both houses are using air conditioning.
• Given electricity rates reported by the Department of Energy of ~11 cents/kWh, the above example would cost $4.40 per day if using only central air conditioning.  When using a whole house fan, this is reduced to $0.45 per day.  If this occurs 60 times during the summer, you’ve saved over $235.00 in one summer.
• Electricity rates are increasing according to these official Department of Energy statistics, more than doubling over the past 20 years.  If we extrapolate these rate increases, then the savings 10 years from now would accumulate to over 3000 dollars, paying for the whole house fan and then some.

Pros

1. Big-time energy savings…which is reducing the impact on the environment.
• During the course of a day, if the air conditioner is used solely to maintain a 75-degree temperature in the house, it will likely use 40,000 watts, or 40kWh of electricity.  This is a conservative estimate, expecting the central air to be on for 20 hours a day, using 2000 watts of energy every hour.
• This compares to a whole house fan on low setting, running for 12 hours a day, using 528 watts, or 0.528 kWh.  To maintain the 75-degree temperature, even if the central air was used for 2 hours in the afternoon which is , the combined energy for the day would be 4528 watts, or 4.528kWh of electricity.  This is 9 times less the amount of energy when central air conditioning is only used.
• I ran several tests that maintained my home’s temperature at 75 degrees for 24 hours.  The results are displayed in this visualization.  One group of data included using only central air, and the other group included using central air and the whole house fan.  When comparing tests during a day with similar temperature patterns, it was determined that the inclusion of a whole  house fan reduced energy usage by nearly 880%, or 8.8 times less energy than solely relying on central air to cool the house.
2. Better sleep at night.
• If you like to sleep in cool temperatures, a whole house fan will guarantee better sleep at night compared to relying on the passive cooling of open windows or an air conditioner.  I’ve had no nights where I’ve gone to sleep in a warm bedroom, and I’ve slept better as a result.
3. Cost savings.
• Given electricity rates reported by the Department of Energy of ~11 cents/kWh, the above example would cost $4.40 per day if using only central air conditioning.  When using a whole house fan, this is reduced to $0.45 per day.  If this occurs 60 times during the summer, you’ve saved over $235.00 in one summer.
• Electricity rates are increasing according to these official Department of Energy statistics, more than doubling over the past 20 years.  If we extrapolate these rate increases, then the savings 10 years from now would accumulate to over 3000 dollars, paying for the whole house fan and then some.

Below the houses are circles that represent the relative amount of energy used in each house to maintain the temperature at 75 degrees or less over the course of a night/day. From my estimates, using a whole house fan in combination with central air uses 500 times less energy than solely relying on central air to cool your house. I will be adding more details to this page as time goes on.