01624nas a2200133 4500008004100000020002200041245003300063210003300096260006100129520106300190653014601253100002101399856007001420 2018 eng d a978-0-12-812817-600aInnovative Glazing Materials0 aInnovative Glazing Materials aCambridgebButterworth-Heinemann, Elsevier Inc.c11/20183 a
Windows have the unique capability of being able to achieve a net zero energy impact by admitting solar gains in the winter to offset thermal losses and admitting daylight to offset electric lighting. If rejection or admission of solar heat gains and daylight are appropriately timed, then heating, cooling and lighting energy use at the perimeter zone can be reduced to net zero energy levels. Nano-scale switchable coatings on glass have been developed to actively modulate solar intensity and spectral transmission. We provide a brief overview of these switchable glazing materials, discuss the desired performance objectives for such materials, and present results from recently completed monitored studies of state-of-the-art switchable windows, particularly with respect to occupant response and market factors. Careful application of state-of-the-art switchable windows and new material science developments on the horizon can deliver the desired net zero energy performance while meeting critical human factors and market related requirements.
10aElectrochromics; Thermochromics; Switchable windows; Smart windows; Solar control; Daylighting; Building energy efficiency; Building controls1 aLee, Eleanor, S. uhttps://facades.lbl.gov/publications/innovative-glazing-materials