Impact of Low-E Glass and Insulating Spacers on Condensation
The
adjacent images show interior surface temperature patterns of a clear
double glazed unit (left) and an energy-efficient Low-E insulated
glazing unit with an improved spacer (right).
Source: Lawrence Berkeley National Laboratory.
Under typical winter conditions, (i.e. 20°F outside), condensation
on the glass under typical humidity levels is shown by purple and blue.
With a conventional clear double glazing (left), condensation occurs in
a band a couple inches wide along the edge of the sightline, with more
condensation along the bottom than at the top. With the energy-efficient
Low-E insulated glass unit (right), condensation will be greatly reduced
(a small strip less then 1" high along the bottom).
Under extreme winter conditions (i.e. 0°F outside), condensation is
shown by purple, blue and green. With clear double glazing, there is
condensation over the entire unit. With energy-efficient Low-E glazing,
there is only condensation on a band along the bottom and up along the
edges.
High
performance windows with new glazing technologies not only reduce energy
costs but make homes more comfortable as well.
The
graph below shows condensation potential on the center of glass area
(the area at least 2.5" from the frame/glass edge) at various
outdoor temperature and indoor relative humidity conditions.
Condensation can occur at any points that fall on or above the curves.
As the U-factor of windows improve, there is a much smaller range of
conditions where condensation will occur.