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2007 Study of United States LEED Accredited Professionals on the Subject of Smart Glass Part 2
Published: 2015/6/22 23:16:51

foot of architectural glazing is increasing, and that demand
for laminated architectural glazing also is increasing. More
than half of those surveyed (53.8%) report having evaluated,
recommended or specified commercial architectural glazing
for a project in the past year, and 20.4% have done so for
residential glazing. Among these study participants, the most
common types of glazings evaluated, recommended or specified
are exterior windows, interior partitions, and standard
skylights (i.e. square, rectangular, domed). When asked how
often they refer to energy performance ratings, 57.1% and
30.4% said “always” and “often,” respectively. Finally, the
use of glass in architectural design is growing. Among this
group, 43.9% claim they are including more glazing in their
designs today than in the past, while 53.6% say they are using
the same amount. Just 2.4% report they are using less glazing
today than in the past.

Smart Glass
As observed in prior studies, attitudes toward smart glass are
strongly positive and support the belief that this category of
materials will play a major role in sustainable design going
forward. While awareness of smart glass among the study population
is strong, with 81.5% claiming to have some awareness
of smart glass technology prior to the research study, only 6.6%
claim they or their firm have ever evaluated, recommended
or specified smart glass for a commercial project. Just 2.0%
claim to have done so for a residential project.
The professionals surveyed believe that various attributes of
architectural smart glass will be desirable for clients interested
in this category of building materials. Overall, energy efficient
operation and high durability are desired, and operation using
alternating current (AC) voltage is preferred versus direct current
(DC) voltage. With regard to the performance of smart
glass, the most desired characteristics are: 1.) integration
with other coatings such as low-e, 2.) glare reduction, 3.)
consistent-looking tint changes regardless of window size, 4.)
light-control that is controllable to any point between the dark
and clear states, 5.) blockage of more than 99% of ultraviolet
(UV) light, 6.) fast switching speed, and 7.) solar heat gain
control that varies with the tint level of the window.
Despite low usage activity to date, the prospects for smart glass
are strong. Assuming the price of smart glass is reasonable
and that it meets the desired specifications for a particular
project, more than ninety percent of those surveyed claim they
would be highly likely or somewhat likely to recommend or
specify smart glass. The actual distribution of this finding is
summarized in Figure 3.



The professionals surveyed were asked to describe the desired
maximum dimensions of the smart glass that they would like
to see offered by suppliers. In their opinion, the maximum
height of smart glass that will be desired is 10 feet and the
maximum width is 6 feet (both are median levels). Respondents
also were asked to comment on the maximum price per
square foot for smart glass that their clients would be willing
to pay. For both commercial and residential projects, the median
price per square foot is $50. Substantial variation exists
around these metrics. For example, more than 25% claim their
clients would be willing to pay $75 or more per square foot
for smart glass, with a maximum amount of $200 per square
foot. For residential projects, nearly 15% claim their clients
would be willing to pay more than $75 per square foot, with
the highest price at $175 per square foot.
CONCLUSION
The smart glass industry is poised to make a significant step
forward in the field of architectural sustainable design. Viewed
quite favorably for its potential energy efficiency and solar
control benefits, architectural professionals also desire distinctive
features of smart glass that include fast and consistent
switching regardless of panel size, light-control tunable to any
point between the glazing’s dark and clear states, and improved
aesthetics. While awareness levels of smart glass are reasonably
strong, specification activity to date is low. However, the
outlook is very promising, with more than ninety percent of
these professionals claiming they likely would recommend or
specify smart glass if pricing were reasonable and if it meets
the desired specifications for a project. This bodes very well
for the movement to “go green.” Great strides in sustainable
design are being made across numerous product categories.

As architectural professionals learn more about the unique
blend of functional and design possibilities that smart glass
offers, even greater advances will be made toward various
sustainable design ideals – low energy consumption of buildings,
improved occupant well-being and productivity, support
for the community and the environment, and favorable
economic outcomes.
references
1. The World Commission on Environment and Development,
Our Common Future, Oxford University Press,
New York, 1987.
2. Energy Information Administration, United States Department
of Energy, Monthly Energy Review, March 2007.
3. United States Office of the Federal Environmental
Executive, “The Federal Commitment to Green
Building: Experiences and Expectations,” 2003.
4. The Freedonia Group, “Advanced Flat Glass to 2010,”
2006.
5. G.M. Sottile, “Assessment of Attitudes and Expectations
of Switchable Glass Among United States Window Manufacturers,”
45th Annual Technical Conference Proceedings
of the Society of Vacuum Coaters, p. 163, 2002.
6. G.M. Sottile, 2004 Survey of United States Architects on
the Subject of Switchable Glazings,” Materials Science
and Engineering (B), 119 (3), 240, 2005.



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