2002
DOI: 10.1016/s0927-0248(01)00101-5
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Application issues for large-area electrochromic windows in commercial buildings

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Cited by 153 publications
(76 citation statements)
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“…Ef (lux) = 1040 -P 1 *(99*P 1 + 629) -55*P 2 , ± 113 (subject variability) (2) where P 1 is the window luminance ratio before the blinds were pulled, and P 2 is a blinds variable which is 1 when the blinds are pulled, and -1 when they are up. Table 11 showed that blind use was correlated to mode in agreement with this fit.…”
Section: Other Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Ef (lux) = 1040 -P 1 *(99*P 1 + 629) -55*P 2 , ± 113 (subject variability) (2) where P 1 is the window luminance ratio before the blinds were pulled, and P 2 is a blinds variable which is 1 when the blinds are pulled, and -1 when they are up. Table 11 showed that blind use was correlated to mode in agreement with this fit.…”
Section: Other Resultsmentioning
confidence: 99%
“…The electrochromic windows we tested have a visible transmittance range which is limited to approximately 3% to 60%. Even 3% transmittance may not be low enough to control glare and direct sun, while higher transmittances are desirable for daylight harvesting and view under lower light conditions [1,2]. The windows we tested are fairly small in size (approximately 0.9 meters on the long side), change color as their transmittance changes, and take several minutes to change their transmittance over their full range.…”
Section: Introductionmentioning
confidence: 99%
“…This might lead to the consideration that the evaluation of visual comfort is not strongly driven by the buildings' intended use itself. Furthermore, the same metrics have been used for assessing visual conditions in different building types such as offices [30,[38][39][40][41], industrial buildings [42,43], commercial buildings or commercial building-like facilities [44,45], schools or universities [46,47], hospitals and healthcare facilities [48][49][50], residential buildings [30,51]. Finally, the European standard EN 12464-1 [52] presents reference values for the amount of light (using illuminance), glare (using Unified Glare Rating), uniformity of light (using Illuminance Uniformity) and color rendering quality of artificial light (using Color Rendering Index) as related rather to the "Type of area, task or activity" [52].…”
Section: Building's Intended Usementioning
confidence: 99%
“…should be used and when or at what levels [4][5][6]. Full-scale tests have led to a greater appreciation of potential occupant satisfaction and acceptance issues and have yielded limited lighting energy performance data given integrated window-lighting control systems [8]. Additional studies to better understand the performance of such windows in real-world applications are underway or have been completed through the IEA Task 27 activity [9], SWIFT [10], and CEC-DOE field test program [11].…”
Section: Introductionmentioning
confidence: 99%