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Heejin Han,Chungyoon Chun,Yoorim Choi,John Goins,Hui Zhang,Edward Arens 한국생활환경학회 2013 한국생활환경학회지 Vol.20 No.6
The purpose of this study is to find building and psychological variables which affect occupants" IEQ (Indoor environment quality) satisfaction in office buildings. The results showed that (1) occupants" IEQ satisfaction increased with behavior adjustability, satisfaction with interior design, and level of ensuring privacy. (2) Occupants" satisfaction with each physical condition (thermal, noise, lighting, indoor air quality) decreased when building scale is too large. Building scale also had a significant effect on behavior adjustability. (3) The linear relationship between all psychological variables and IEQ satisfaction was proved. (4) As IEQ satisfaction (thermal, noise, lighting, indoor air quality) increased, overall workspace satisfaction did also increase. Especially, among four IEQ satisfactions, noise satisfaction was the most effective factor on overall workspace satisfaction.
Development of the ASHRAE Global Thermal Comfort Database II
Fö,ldvá,ry Lič,ina, Veronika,Cheung, Toby,Zhang, Hui,de Dear, Richard,Parkinson, Thomas,Arens, Edward,Chun, Chungyoon,Schiavon, Stefano,Luo, Maohui,Brager, Gail,Li, Peixian,Kaam, Soazig Elsevier 2018 Building and environment Vol.142 No.-
<P><B>Abstract</B></P> <P>Recognizing the value of open-source research databases in advancing the art and science of HVAC, in 2014 the ASHRAE Global Thermal Comfort Database II project was launched under the leadership of University of California at Berkeley's Center for the Built Environment and The University of Sydney's Indoor Environmental Quality (IEQ) Laboratory. The exercise began with a systematic collection and harmonization of raw data from the last two decades of thermal comfort field studies around the world. The ASHRAE Global Thermal Comfort Database II (Comfort Database), now an online, open-source database, includes approximately 81,846 complete sets of objective indoor climatic observations with accompanying “<I>right-here-right-now</I>” subjective evaluations by the building occupants who were exposed to them. The database is intended to support diverse inquiries about thermal comfort in field settings. A simple web-based interface to the database enables filtering on multiple criteria, including building typology, occupancy type, subjects' demographic variables, subjective thermal comfort states, indoor thermal environmental criteria, calculated comfort indices, environmental control criteria and outdoor meteorological information. Furthermore, a web-based interactive thermal comfort visualization tool has been developed that allows end-users to quickly and interactively explore the data.</P> <P><B>Highlights</B></P> <P> <UL> <LI> The scope, development, contents, and accessibility of the Comfort Database is documented. </LI> <LI> The Comfort Database II includes approximately 76,000 complete sets of thermal comfort data. </LI> <LI> The Comfort Database provides access to the collected raw data. </LI> <LI> Web-based interactive visualization tool was developed that allows end-users to interactively explore the data. </LI> </UL> </P>