Thermal and lighting perception in four fully glazed office buildings in Santiago, Chile
This paper is part of a general research project whose main objective is to establish a baseline for post-occupancy energy consumption and indoor environmental quality for office buildings in Santiago, Chile. This study aims at understanding how architectonical variables relate to, and can even determine, user comfort perception. Thus, one-year continuous monitoring in several floors at four office buildings was performed and seasonal surveys were completed. Survey participants were asked a series of questions regarding spatial orientation and comfort perception in their workspace.
The data from the comfort survey and onsite measurements such as season of the year, case study, type of workspace and possibility of an outdoor view from the workstation were contrasted with the components obtained by a Principal Component Analysis (PCA). Three components were selected from the PCA, and three Maps of Perception (MP) were produced. These maps were then analyzed and interpreted so as to obtain information on the general perception of thermal and lighting comfort at workspaces within several office buildings in Santiago.
Azar, E., Menassa, C. (2012). A Comprehensive Analysis of the Impact of Occupancy Parameters in Energy Simulation of Commercial Buildings. Energy and Buildings, ELSEVIER (In review).
Encinas, F. (2004). The Technology Transfer of Double Skin Facades from Europe to Chile, an evaluation by means of CFD simulations, Dissertation submitted in partial fulfilment of the regulations for the Degree of Master of Science in Renewable Energy & Architecture at the University of Nottingham, Nottingham.
Guerra Santin, O. (2011). Behavioural patterns and User Profiles related to energy consumption for heating. Energy and Buildings, 43, 2662-2672.
Hair, J., Anderson, R. (2005). Análisis Multivariante. McGraw Hill.
Hummelgaard J., Juhl P., Saebjörnsson K., Clausen G., Toftum J., Langkilde G. (2007). Indoor air quality and occupant satisfaction in five mechanically and four naturally ventilated open-plan office buildings. Building and Environment, 42, 4051-4058.
Kwon S., Chun Ch., Kwak R, (2011). Relationship between quality of building maintenance management services for indoor environmental quality and occupant satisfaction. Building and Environment, 46, 2179-2185.
Macdonald, I., Clarke, J., & Strachan, P. (1999). Assessing uncertainty in building simulation. Building Simulation 1999. Kyoto, Japan.
Olesen, B. W. (2011). Can we meet the ventilation required in international standards in an energy efficient way? Joint Conference 32nd AIVC Conference and 1st TightVent Conference: "Towards Optimal Airtightness Performance". Proceedings Presentations, 789-818. Brussels: AIVC, Air Infiltration and Ventilation Centre.
Pino, A., Bustamante, W., Escobar, R., Encinas, F. (2012) Thermal and lighting behavior of office buildings in Santiago de Chile. Energy and Buildings, 47, 441-449.
Roetzel, A., Tsangrassoulis, A., Dietrich, U., & Busching, S. (2010). A review of occupant control of natural ventilation. Renewable and Sustainable Energy Reviews, 14, 1001-1013.
Yu, Z., Fung, B. C., Haghighat, F., Yoshino, H., & Morofsky, E. (2011). A systematic procedure to study the influence of occupant behaviour on building energy consumption. Energy and Buildings, 43, 1409-1417.
Zhang, Y., Altan, H. (2011). A comparison of the occupant comfort in a conventional high-rise office block and a contemporary environmentally-concerned building. Building and Environment, 46, 535-545.
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