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Research Article

Case study of window opening behavior using field measurement results

Yiwen Jian( )Yujie GuoJian LiuZhen BaiQingrui Li
College of Architecture and Civil Engineering, Beijing University of Technology, Beijing 100124, China
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Abstract

Window opening behavior has significant influences on indoor environment and energy consumption in residential buildings. As a response to indoor environment, the control mechanism (window and interior door open/closed) should be studied first by comprehensive understanding of the variation of indoor environmental conditions. For this reason, a field measurement of environmental conditions was carried out in five representative apartments in Beijing from April to May in 2010. By comparison analyses of the field measurement results, major findings are as follows: (1) the concentration of room CO2 can be the best predictor of occupant behavior, also window opening behavior, in residential buildings; (2) the variation in indoor air quality mainly results from large variation in window opening behavior; (3) apart from indoor and outdoor thermal environment, indoor air quality as well as occupants’ presence at room have also considerable effect on window opening behavior; (4) while defining window opening behavior for one room in residential building, it is necessary to take the window adjustment of its connecting room and the adjustment of the connecting door into consideration due to air diffusion between the two connecting rooms.

Keywords

window opening behaviorapartmentindoor temperatureCO2response

References

 
RV Andersen, J Toftum, KK Andersen, BW Olesen (2009). Survey of occupant behavior and control of indoor environment in Danish dwellings. Energy and Buildings, 41: 11-16.
Crossref Google Scholar
 
AS Bahaj, PAB James (2007). Urban energy generation: the added value of photovoltaics in social housing. Renewable and Sustainable Energy Reviews, 11: 2121-2136.
Crossref Google Scholar
 
BERC (Tsinghua Center for Building Energy Research) (2007). Annual Report on China Building Energy Efficiency. Beijing: China Architecture and Building Press. (In Chinese)
 
S Herkel, U Knapp, J Pfafferott (2008). Towards a model of user behavior regarding the manual control of windows in office buildings. Building and Environment, 43: 588-600.
Crossref Google Scholar
 
MA Humphreys, JF Nicol (1998). Understanding the adaptive approach to thermal comfort. ASHRAE Transactions, 104(1): 991-1004.
Google Scholar
 
Y Jian, Y Jiang (2005). Calculation modes of heating and air con-ditioning energy consumption of residential building. HV&AC, 35(2): 11-14. (In Chinese)
Google Scholar
 
DA McIntyre (1980). Indoor Climate. London: Applied Science Publisher.
 
JF Nicol, MA Humphreys (2004). A stochastic approach to thermal comfort—Occupant behavior and energy use in buildings. ASHRAE Transactions, 110(2): 554-568.
Google Scholar
 
BW Olesen (1995). International development of standards for ventilation of buildings. ASHRAE Journal, 2: 206-213.
Google Scholar
 
J Ouyang, K Hokao (2009). Energy-saving potential by improving occupants' behavior in urban residential sector in Hangzhou City, China. Energy and Buildings, 41: 711-720.
Crossref Google Scholar
 
KT Papakostas, BA Sotiropoulos (1997). Occupational and energy behavior patterns in Greek residences. Energy and Buildings, 26: 207-213.
Crossref Google Scholar
 
HB Rijal, P Tuohy, MA Humphreys, JF Nicol, A Samuel, J Clarke (2007). Using results from field surveys to predict the effect of open windows on thermal comfort and energy use in buildings. Energy and Buildings, 39: 823-836.
Crossref Google Scholar
 
C Seligman, JM Darly, LJ Becker (1978). Behavioral approaches to residential energy conservation. Energy and Buildings, 1: 325-337.
Crossref Google Scholar
Building Simulation
Volume 4 Issue 2,
June 2011
Pages 107-116
DOI: 10.1007/s12273-010-0012-5
Cite this article:
Jian Y, Guo Y, Liu J, et al. Case study of window opening behavior using field measurement results. Building Simulation, 2011, 4(2): 107-116. https://doi.org/10.1007/s12273-010-0012-5

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Received: 03 August 2010
Revised: 21 September 2010
Accepted: 26 September 2010
Published: 04 December 2011
© Tsinghua University Press and Springer-Verlag Berlin Heidelberg 2010
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