Are you thinking about upgrading your home with new window coverings near
San Jose? If so, then there is more to consider than just their appearance.
Window treatments can insulate your home and improve its overall efficiency. Here, you’ll
find answers to common questions about choosing energy-efficient coverings
for your windows.
What are the advantages of choosing energy-efficient window coverings?
The insulation provided by energy-efficient window treatments can benefit
you by helping to keep heat inside your home during the winter. In the
warmer months, they can provide the opposite by blocking heat gain due
to sunlight. Also, you will find that these coverings can help protect
your furniture and rugs from bleaching caused by the sun, as well as provide
the light control that comes with adding treatments to your windows.
Is it important to choose energy-efficient window coverings?
While selecting window treatments that help you save on energy isn’t
essential, doing so can be highly beneficial. Window coverings that prevent
heat loss and gain can reduce your monthly energy bill, so are worth considering
if you are in the market for new ones. If you have any interest in reducing
your household’s overall energy usage or saving on utility costs,
then you should lean toward energy-efficient window treatments.
Which window coverings are the most energy-efficient?
How effectively your window coverings can insulate your home depends on
their individual material and quality, rather than their type. Window
shades, for example, can provide excellent insulation. However, if you
choose a sheer variety, then they won’t block as much solar heat
from penetrating your windows as solid ones will.
What is considered energy-efficient when it comes to window coverings?
As you consider your options, be on the lookout for the percentage of
solar heat gain protection that each window treatment offers. Anything
that blocks sunlight from warming your home could be considered energy-efficient,
but try to choose coverings that reduce solar heat gain by at least 30%.