The colours of comfort: From thermal sensation to person-centric thermal zones for adaptive building strategies
The colours of comfort: From thermal sensation to person-centric thermal zones for adaptive building strategies
Thermal comfort research has been traditionally based on cross-sectional studies and spatial aggregation of individual surveys at building level. This research design is susceptible to compositional effects and may lead to error in identifying predictors to thermal comfort indices, in particular in relation to adaptive mechanisms. A relationship between comfort and different predictors can be true at an individual level but not evident at the building level. In addition, cross-sectional studies overlook temporal changes in individual thermal perception due to contextual factors. To address these limitations, this study applied a longitudinal research design over 8 to 21 months in eight buildings located in six countries around the world. The dataset comprises of 5,567 individual thermal comfort surveys from 258 participants. The analysis aggregated survey responses at participant level and clustered participants according to their thermal sensation votes (TSV). Four TSV clusters were introduced, representing four different thermal sensation traits. Further analysis reviewed the probability of cluster membership in relation to demographic characteristics and behavioural adaptation. Finally, the analysis at individual level enabled the introduction of a new metric, the thermal zone (Zt), which in this study ranges from 21.5 °C to 26.6 °C. The thermal sensation traits and person-centric thermal zone (Zt) are a first step into the development of new metrics incorporating individual perceived comfort into dynamic building controls for adaptive buildings.
Adaptive building strategies, Adaptive thermal comfort, Clustering, Individual comfort profiles, Person-centric thermal zones
Gauthier, Stephanie
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Bourikas, Leonidas
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Al-Atrash, Farah
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Bae, Chihye
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Chun, Chungyoon
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de Dear, Richard
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Hellwig, Runa
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Kim, Jungsoo
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Kwon, Suhyun
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Mora, Rodrigo
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Pandya, Himani
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Rawal, Rajan
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Tartarini, Federico
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Upadhyay, Rohit
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Wagner, Andreas
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1 June 2020
Gauthier, Stephanie
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Bourikas, Leonidas
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Al-Atrash, Farah
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Bae, Chihye
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Chun, Chungyoon
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de Dear, Richard
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Hellwig, Runa
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Kim, Jungsoo
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Kwon, Suhyun
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Mora, Rodrigo
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Pandya, Himani
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Rawal, Rajan
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Tartarini, Federico
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Upadhyay, Rohit
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Wagner, Andreas
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Gauthier, Stephanie, Bourikas, Leonidas, Al-Atrash, Farah, Bae, Chihye, Chun, Chungyoon, de Dear, Richard, Hellwig, Runa, Kim, Jungsoo, Kwon, Suhyun, Mora, Rodrigo, Pandya, Himani, Rawal, Rajan, Tartarini, Federico, Upadhyay, Rohit and Wagner, Andreas
(2020)
The colours of comfort: From thermal sensation to person-centric thermal zones for adaptive building strategies.
Energy and Buildings, 216, [109936].
(doi:10.1016/j.enbuild.2020.109936).
Abstract
Thermal comfort research has been traditionally based on cross-sectional studies and spatial aggregation of individual surveys at building level. This research design is susceptible to compositional effects and may lead to error in identifying predictors to thermal comfort indices, in particular in relation to adaptive mechanisms. A relationship between comfort and different predictors can be true at an individual level but not evident at the building level. In addition, cross-sectional studies overlook temporal changes in individual thermal perception due to contextual factors. To address these limitations, this study applied a longitudinal research design over 8 to 21 months in eight buildings located in six countries around the world. The dataset comprises of 5,567 individual thermal comfort surveys from 258 participants. The analysis aggregated survey responses at participant level and clustered participants according to their thermal sensation votes (TSV). Four TSV clusters were introduced, representing four different thermal sensation traits. Further analysis reviewed the probability of cluster membership in relation to demographic characteristics and behavioural adaptation. Finally, the analysis at individual level enabled the introduction of a new metric, the thermal zone (Zt), which in this study ranges from 21.5 °C to 26.6 °C. The thermal sensation traits and person-centric thermal zone (Zt) are a first step into the development of new metrics incorporating individual perceived comfort into dynamic building controls for adaptive buildings.
Text
Gauthier et al_2020_The colours of comfort_From thermal sensation to person-centric thermal zones for adaptive building strategies
- Accepted Manuscript
More information
Accepted/In Press date: 10 March 2020
e-pub ahead of print date: 11 March 2020
Published date: 1 June 2020
Additional Information:
Funding Information:
S.G. and L.B. would like to thank the Sustainable Energy Research Group at the University of Southampton for supporting this work ( www.energy.soton.ac.uk ).
Funding Information:
The work of F.A., R.T.H. and A.W. was supported by the Building Science Group, Karlsruhe Institute of Technology . F.A., R.T.H. and A.W. would like to give their appreciation to both the employers and the employees of the World Health Organization and Middle East Insurance Company for participating in the survey presented in this paper and for facilitating conducting the survey in their buildings.
Funding Information:
C.C., C.B. and S.K. would like to thank the National Research Foundation of Korea (NRF) for supporting this work. (No. NRF-2017R1A2B4012122)
Funding Information:
R.M. and R.U. would like to thank the BCIT Green Value strategies Fund for their financial support.
Publisher Copyright:
© 2020
Keywords:
Adaptive building strategies, Adaptive thermal comfort, Clustering, Individual comfort profiles, Person-centric thermal zones
Identifiers
Local EPrints ID: 439565
URI: http://eprints.soton.ac.uk/id/eprint/439565
ISSN: 0378-7788
PURE UUID: 47033075-dd3e-40a6-8ca2-e30fcba223e2
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Date deposited: 27 Apr 2020 16:30
Last modified: 16 Mar 2024 07:54
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Contributors
Author:
Leonidas Bourikas
Author:
Farah Al-Atrash
Author:
Chihye Bae
Author:
Chungyoon Chun
Author:
Richard de Dear
Author:
Runa Hellwig
Author:
Jungsoo Kim
Author:
Suhyun Kwon
Author:
Rodrigo Mora
Author:
Himani Pandya
Author:
Rajan Rawal
Author:
Federico Tartarini
Author:
Rohit Upadhyay
Author:
Andreas Wagner
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