How Wind Affects Homes
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How Wind Affects Homes

   

How Wind Affects Homes1

Kathleen C. Ruppert, Hal S. Knowles, III, and Karla A. Lenfesty2

Wind forces are complex. The effect of wind on a building depends on the interaction of many variables. Natural variables include wind speed, wind height, ground surface features, and the properties of the air. Building variables include the shape, location, and physical properties of structures. Together, these variables create differences in pressure that push and pull on the exterior surfaces of buildings.

How Wind Forces Affect Homes

Uplift occurs as wind flows over a roof. Similar to the effect on airplane wings, wind flow under a roof pushes upward while wind flow over a roof pulls upward.

Tilting or sliding occurs when horizontal wind pressures create a shearing action along the foundation.

Overturning, or rotating off the foundation, can also result from shearing action when a structure is otherwise unable to tilt or slide off the foundation.

Only As Strong As The Weakest Link

A safe home is designed to resist these three effects of wind. The exterior surfaces of a home interact to function as the building envelope. Think of this envelope as a protective shield from the outdoor elements such as heat, humidity, and stormy weather. A stronger shield makes for a safer home and more comfortable occupants.

The structural components of a building envelope are the foundation, walls, and roof. A safe envelope has a continuous load path. This path connects all the structural parts of a building envelope much like how a human skeleton supports and connects parts of our body.

The non-structural components of a building envelope include windows, doors, garage doors, and other openings in the structural components. These parts protect the inside of a building much like how human skin protects our internal organs.

The weakest link in the building envelope is the point most likely to fail in a windstorm. When a hurricane or tornado strikes, a home is only as strong as the weakest link.

For more detailed information about wind resistant building envelopes, please read the other fact sheets in our Education + Action = Wind Damage Mitigation series.

How Wind Forces Cause Damage

Wind forces can break the building's load path or punch a hole in the building envelope. Sometimes the actual force of high winds can cause a door or window to break open.

Other times nearby debris can be picked up in the wind and projected against the building envelope. Roof shingles from a neighbors home, branches from fallen trees, or unsecured yard furniture are examples of potentially dangerous wind-borne debris.

Once wind forces create an opening in the building envelope, the dangers of structural failure greatly increase. Water intrusion is another damaging effect of wind driven rain.

If your house is in an unobstructed location or within 1,500 feet of open water, you are more susceptible to damages caused by high winds. Proper landscaping may help to shield your home and divert winds around the building.

Hurricane and Tornado Resistance

Check with your local building official to determine the wind-borne debris region of your location. Use the protections that will help your home resist the design wind speed of your region. It is a good investment to build or renovate beyond minimum code requirements. This may provide additional damage resistance, peace of mind, increased market value, and help you qualify for current or future incentives such as property wind insurance discounts.

References and Resources

Federal Emergency Management Agency | Disaster Prevention and Preparation Library
http://www.fema.gov/library/prepandprev.shtm

Florida Division of Emergency Management | Information Page
http://www.floridadisaster.org/DEMinformation.htm

Texas Tech University | Wind Science and Engineering Research Center
http://www.wind.ttu.edu

University of Florida | Disaster Handbook
http://disaster.ifas.ufl.edu

Footnotes

1. This document ABE379 is part of the Education + Action = Wind Damage Mitigation series. Publication date: April 2007.

2. Kathleen C. Ruppert, Associate Extension Scientist, Program for Resource Efficient Communities; Hal S. Knowles, III, Coordinator, Program for Resource Efficient Communities; Karla A. Lenfesty, Windstorm Damage Mitigation Program Specialist, St. Lucie County Cooperative Extension, Institute of Food and Agricultural Sciences, University of Florida.

The Institute of Food and Agricultural Sciences (IFAS) is an Equal Opportunity Institution authorized to provide research, educational information and other services only to individuals and institutions that function with non-discrimination with respect to race, creed, color, religion, age, disability, sex, sexual orientation, marital status, national origin, political opinions or affiliations. For more information on obtaining other extension publications, contact your county Cooperative Extension service.

U.S. Department of Agriculture, Cooperative Extension Service, University of Florida, IFAS, Florida A. & M. University Cooperative Extension Program, and Boards of County Commissioners Cooperating. Larry Arrington, Dean.


Copyright Information

This document is copyrighted by the University of Florida, Institute of Food and Agricultural Sciences (UF/IFAS) for the people of the State of Florida. UF/IFAS retains all rights under all conventions, but permits free reproduction by all agents and offices of the Cooperative Extension Service and the people of the State of Florida. Permission is granted to others to use these materials in part or in full for educational purposes, provided that full credit is given to the UF/IFAS, citing the publication, its source, and date of publication.