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Help and Ideas For Your Home Remodeling Project

Home Project FYI. Your Home Project Information and Idea Place - Help and Ideas For Your Home Remodeling Project

Solar Heat-Gain Coefficient Ratings for Windows

Solar Heat-Gain Coefficient Ratings for Windows

The amount of solar radiation that can pass through a window or skylight can be measured in terms of its solar heat-gain coefficient, or SHGC.  SHGC ratings are used to help in quantifying the energy efficiency of windows and skylights.  Understanding some of the specifics about Solar Heat-Gain Coefficient ratings can be helpful to energy-conscious consumers who are planning a new build or renovating their home.

Why Use Solar Heat-Gain Coefficient “SHGC” Ratings?

By knowing how a window behaves in relation to sunlight and solar heat, the most appropriate windows can be chosen for a specific installation on a home, which often depends on the climate of the region where the home is located.  For example, windows that allow a larger amount of solar heat to pass through are best utilized in hea
Solar heat-gain through this windowting-dominated climates where extra warmth from sunlight can be beneficial.

Solar Heat-Gain Coefficient is best described as a ratio where 1 equals the maximum amount of solar heat allowed through a window, and 0 equals the least amount possible allowed through.  An SHGC rating of 0.30 means that 30% of the available solar heat can pass through the window.  The Solar Heat-Gain Coefficient rating assigned to a window generally includes the entire window assembly, and is meant to help quantify the energy efficiency of the combination of the glazing, window frame and any spacers (which separate the glazing panels).  So, the type of window, as well as the glass, affect the Solar Heat-Gain Coefficient, “SHGC” rating.

The ability to quantify how much solar heat a particular type of glass can block is even more useful as manufacturers have recently begun to experiment with different treatments for window panes intended to influence Solar Heat-Gain Coefficient.  Tinted and reflective glass have been in use for some time now, especially in commercial and office buildings.  Spectrally selective glass has recently gained in popularity, as well, utilizing tints and coatings, including special low-emittance coatings, to further affect how windows perform in relation to solar heat.  The Solar Heat-Gain Coefficient “SHGC” rating allows for easy comparison of these different products’ attributes.

Solar Heat-Gain Coefficient “SHGC”, U-Factors and R-Values

When windows are rated for energy efficiency, the rate of non-solar heat that passes through is quantified as the U-factor, as opposed to Solar Heat-Gain Coefficient, which quantifies the rate of solar heat that passes through the window.  SHGC and U-factor ratings are specific to windows and measure properties different from insulation R-values, which are used to quantify the insulating capabilities of building materials used elsewhere in a house, such as insulation behind walls, under floors, in an attic, etc.  These different values are each designed to measure very specific properties, which is helpful when examining the individual factors that can all be addressed to improve the energy efficiency of a whole house.

How are Solar Heat-Gain Coefficient “SHGC” Ratings Determined?Solar Heat-Gain

The procedure for testing window products and assigning Solar Heat-Gain Coefficient “SHGC” ratings is performed by the National Fenestration Rating Council (NFRC), and started in 1993.  The NFRC is a non-profit organization that administers the only independent rating and labeling system for the energy performance of windows, skylights, doors and attachment products.  When evaluating the energy efficiency of windows for product certifications and federal incentive and rebate programs, the U.S. Department of Energy and the EPA take windows’ Solar Heat-Gain Coefficient  ratings into account.

Solar Heat-Gain Coefficient “SHGC” ratings are documented on labels affixed to products that are part of the NFRC’s certification program.  Also noted on the label are the window’s U-factor, air leakage characteristics, visible transmittance, and condensation resistance.  These factors add up to determine a window’s overall energy performance.  The Solar Heat-Gain Coefficient labels provided by the NFRC help guide consumers in purchasing windows that are best suited to specific applications and installations.

Solar Heat-Gain Coefficient in Different Climates

Although windows and skylights with a low Solar Heat-Gain Coefficient can sometimes be used effectively in cooling-dominated climates that also experience some hot months, they are much more effective and important in heating-dominated regions.  The following are some recommendations for the best window and skylight choices based on Solar Heat-Gain Coefficient and the region of the U.S. they will be used in.

  • In colder, heating-dominated northern climates, Solar Heat-Gain Coefficient is less important than a window’s U-factor, which can still be taken into account for energy efficiency.  When air conditioning is generally not of concern, a higher SHGC in the range of 0.30 to 0.60 can be helpful, since during winter months, the solar heat gained can help warm the house.  If air conditioning is sometimes used and cooling is a concern, windows and skylights with an Solar Heat-Gain Coefficient “SHGC” of less than 0.40 should be used.
  • In the mixed climates of the North and Midwest, where both heating and cooling are used but cooling is used less often, windows and skylights with an SHGC of less than 0.40 are best.  In situations where air-conditioning costs during warm months can beSolar Heat-Gaincome high, windows with an SHGC of less than 0.30 can be beneficial.  While lower Solar Heat-Gain Coefficient windows can help to keep homes and its occupants cooler during the summer, they also allow less gain from solar heat during cold months, so costs for heating versus air conditioning can be compared in these regions to help determine whether less or more solar heat gain will be most effective.
  • In the mixed-climate South and central regions that use both heating and cooling, SHGC for windows and skylights is best kept under 0.30, though, again, in areas where heating may be used extensively for some periods of the year, a lower Solar Heat-Gain Coefficient equates to less warmth gained by solar heat.  Cooling and heating costs can be compared to determine the best window choices.
  • Using windows and skylights with a low Solar Heat-Gain Coefficient is most beneficial in southern climates that are cooling-dominated, since the main concern in these regions is keeping interiors cool during long periods of the year of hot weather, while maintaining reasonable air-conditioning costs.  These areas can most effectively utilize windows with an Solar Heat-Gain Coefficient “SHGC” rating of less than 0.27, and skylights of less than 0.30.

Knowing something about Solar Heat-Gain Coefficient ratings, as well as the ratings that are better for particular climates, is useful for inspectors who perform energy audits.  When clients have questions about windows and energy efficiency, inspectors can pass along this information about SHGC ratings so that they can make sound investments on their windows.

Solar Heat-Gain Coefficient and The National Fenestration Rating Council (NFRC)

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