Our
Glass
Solaglass
E3©
All
Climate Solar Control Conservatory Glass
Solaglass
E3© is designed for maximum solar heat gain
efficiency for Conservatories in all climates without
the need for tinting. Unlike ordinary Sunroom glass,
which welcomes the heat, Solaglass E3© has
been specially formulated to reject the sun’s
heat and damaging rays and keep your new room cool
and comfortable. You benefit by reducing solar heat
gain by more than 60% when compared to ordinary
clear glass.
Visual
Benefits.
Unlike
the tinted glass typically used in warm climates,
with Solaglass E3© there is no haze or tint
cast and no need to add reflective films or restrictive
solar screens. Because of its clarity Solaglass
E3© outperforms tinted glass typically used
in Sunrooms. And its ultraviolet blocking feature
helps to protect carpet, furniture and wall coverings
from excessive fading and sun wear.
Solaglass
E4©
Cool.
Consistent. Comfortable.
Bel
Air Conservatories introduces the most impressive
scientific advancement in solar control glass in
years! Solaglass E4©, a tinted version of our
finest solar control insulating glass controls glare,
blocks excessive solar gains, and maintains proven
year round comfort in your new Conservatory.
How
it works.
Regular
tinted glass works by absorbing sunlight. The color
of the glass changes with the thickness and it gets
hot in the sunlight. Solaglass E4© is a coating
that is applied to clear glass, so the appearance
and the performance are the same regardless of the
glass thickness. Solaglass E4© blocks visible
light for glare control, reflects invisible solar
heat and, because it has a low-emittance coating,
the glass stays comfortable all year long —
cool in the summer, warm in the winter.
A
glass for all seasons.
Solaglass
E4© is more than a solar control glass. Its
advanced coating design also provides the lowest
possible U-factor to deliver comfort during cold
winter weather. Year-round thermal comfort is a
result of warm glass temperatures in the winter,
cool glass temperatures in the summer, and the blockage
of oppressive heat gains.
