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Energy Efficient Homes: Ceiling Fans1

Kathleen C. Ruppert, Wendell A. Porter, Randall A. Cantrell, and Hyun-Jeong Lee 2

Quick Facts

  • Ceiling fans are appliances wrapped decoratively with unique housings in a variety of finishes, and they often feature furniture-grade blades and accessories.

  • During the summer, use of a ceiling fan allows for raising the home's thermostat setting by 4°F without feeling a difference in comfort.

  • Even during the winter, most ceiling fans help when operated in the reverse direction by forcing warm air near the ceiling down into the living space of the residence.

  • Ceiling fan/light combo kits that have earned the ENERGY STAR label are about 60% more efficient than conventional fan/light units.

Terms to Help You Get Started

  • Downrod: Extension rod that allows you to set the fan at the proper height from your ceiling for optimum performance

  • CFM: Cubic feet per minute

  • CFM/watt: Cubic feet per minute/watt measures air flow efficiency for ceiling fans; the higher the number, the more efficient the unit.

  • UL: Underwriters Laboratories

Can ceiling fans lower my utility bill?

One of the myths about ceiling fans is that they lower the temperature in a room. Actually, ceiling fans do not lower room temperature. However, they do create a breeze, making room occupants feel cooler and more comfortable. When a ceiling fan is operating, you can usually raise the thermostat setting by up to four degrees during the cooling season with no reduction in comfort. Increasing the room temperature by even two degrees can cut your cooling costs by at least 4%–6%, and in some cases by as much as 8%.

Should I leave ceiling fans running all the time?

No, because fans cool people, not rooms. Ceiling fans are less costly than air conditioning, but they still use electricity. Operating several fans 24 hours a day can add up quickly, especially if no one (or animal) is home to benefit from them. Operate the fan only when someone (or an animal) is in the room.

What features should I consider?

Correct Sizing

For maximum efficiency, choose a ceiling fan that is the right size for the room. See Table 1 for the guidelines suggested by the American Lighting Association:


Table 1. 

Fan sizes suggested by the American Lighting Association.



To ensure long life and quiet operation, purchase fans with motor housings constructed with heavier materials, such as die-cast metal. These models tend to produce less vibration and provide better stability for downrods. Also look for models with heavy-duty windings, precision-engineered ball bearings, and shock-absorbent internal components.

Performance-grade fans are designed for continuous, quiet operation. They use larger, more powerful motors, and are generally the most expensive models. Medium-grade models are designed to operate 12 hours or fewer per day, and economy models are designed to operate 8 hours or fewer per day. You will have to do some research to determine fan grades. Check manufacturer's websites for information.

Motors come either with sealed and lubricated ball bearings, which require little or no maintenance, or with bearings that operate in an oil bath, which will occasionally require you to add oil.

Three-speed motors are recommended for maximum comfort. Most fans (and all ENERGY STAR–qualified models) can reverse direction via an external switch on the motor housing, so that they can move warm air (which rises up to the ceiling) down into the room's living space during cooler months.


Blades should be sealed or finished to prevent moisture-caused damage such as warping, peeling, or tarnishing, especially if the fan will be used in a high-humidity situation. More blades do not necessarily move more air. The pitch (angle of the fan's blades), balance of the blades, length of the blades, motor design, motor speed, number of blades, etc., are all important in determining how much air a fan can move.


Try the fan out in the store using all settings to determine how loud it is. If it is too noisy, try a different brand, or a model with blades made of a different material.

Can I install a ceiling fan in any room?

The Energy Efficiency and Renewable Energy (EERE) program at the US Department of Energy indicates that for best performance, ceiling fans should only be installed in rooms where ceilings are 8 feet or higher. They also recommend installing ceiling fans so that the blades are no less than 8 inches from the ceiling and at least 18 inches from any given wall (Figure 1).


Figure 1. Minimum space requirements for a ceiling fan installation recommended by the US Department of Energy.
Figure 1.  Minimum space requirements for a ceiling fan installation recommended by the US Department of Energy.
Credit: Image created by Hyun-Jeong Lee in Microsoft Office Visio. Converted to .GIF by IFAS Communication Services.


Do fan/light combination units save energy?

Fan/light units labeled with the ENERGY STAR logo (Figure 2) are about 60% more efficient than standard fan/light units. This can save you $17 per year on utility bills (in addition to the heating and cooling savings gained by operating the fan properly, as described previously). Lights can also be purchased separately as an add-on to a ceiling fan. Most fans accept add-on light kits, though a number of them are only compatible within brands. Check the package for compatibility information. Separately sold ceiling-fan light kits should be labeled ENERGY STAR when considering energy efficiency.


Figure 2. Sample ENERGY STAR logo for use on qualified products only.
Figure 2.  Sample ENERGY STAR logo for use on qualified products only.
Credit: Courtesy of


Note that the Environmental Protection Agency (EPA) has a designation ENERGY STAR Most Efficient 2019 (Figure 3). This label recognizes products that deliver cutting-edge energy efficiency along with the latest in technological innovation. The year included on the label designates that the device or appliance meets the criteria for the year indicated. Ceiling fans are one of several appliances or devices that have units meeting these criteria. If interested, begin your search at


Figure 3. Sample ENERGY STAR Most Efficient logo for use on qualified products only.
Figure 3.  Sample ENERGY STAR Most Efficient logo for use on qualified products only.
Credit: Courtesy of


Can I use a fan in damp areas?

If you're installing a fan in a bathroom or other humid location, make sure it is UL-listed with a "damp" rating. If you are mounting a fan where it may come into direct contact with water (e.g., a porch or patio), be sure it has a UL "wet" rating. These fans have features such as sealed or moisture-resistant motors, rust-resistant housings, stainless steel hardware, and all-weather blades (ENERGY STAR, n.d-a).

What are the current ENERGY STAR ceiling fan specifications?

The following ENERGY STAR ceiling fan specifications became effective April 1, 2012 (


Table 2. 


To help you evaluate different ceiling fans with lighting for purchase, click on the savings calculator link at

The US Department of Energy (DOE) has federal design and test procedures for residential ceiling fans (see and energy conservation standards for ceiling-fan light kits, which were corrected in March 2019 (see

References and Resources

American Lighting Association. (n.d.). Selecting a ceiling fan. Retrieved November 18, 2022, from

ENERGY STAR. (n.d.-a). Ceiling fan basics. Retrieved November 18, 2022, from

ENERGY STAR. (n.d.-b). Fans, Ceiling (for Consumers). Retrieved November 18, 2022, from

U.S. Department of Energy. (n.d.-a). Fans for cooling. Retrieved November 18, 2022, from

U.S. Department of Energy. (n.d.-b). Residential: Ceiling Fans. Retrieved November 18, 2022, from

Publication #FCS3261

Date: 8/14/2019


    Fact Sheet

    About this Publication

    This document is FCS3261, one of a series of the Department of Family, Youth and Community Sciences, UF/IFAS Extension. Original publication date April 2008. Revised July 2015 and August 2019. Visit the EDIS website at for the currently supported version of this publication. This material was initially prepared with the support of the Department of Environmental Protection, Florida Energy Office, which is now the Office of Energy, Florida Department of Agriculture and Consumer Services. The revised versions were completed with the support of the Florida Energy Systems Consortium ( Any opinions, findings, conclusions, or recommendations expressed herein are those of the author(s) and do not necessarily reflect the views of the sponsoring organizations.

    About the Authors

    Kathleen C. Ruppert, retired Extension scientist, Program for Resource Efficient Communities; Wendell A. Porter, lecturer and P. E., Department of Agricultural and Biological Engineering; Randall A. Cantrell, assistant professor, Department of Family, Youth, and Community Sciences; and Hyun-Jeong Lee, former assistant professor, Department of Family, Youth, and Community Sciences; UF/IFAS Extension, Gainesville, FL 32611.


    • Randall Cantrell