Outdoor thermal comfort study in a sub-tropical climate: a longitudinal study based in Hong Kong
This paper presents the findings of an outdoor thermal comfort study conducted in Hong Kong using longitudinal experiments—an alternative approach to conventional transverse surveys. In a longitudinal experiment, the thermal sensations of a relatively small number of subjects over different environm...
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| Published in | International journal of biometeorology Vol. 56; no. 1; pp. 43 - 56 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer-Verlag
01.01.2012
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | This paper presents the findings of an outdoor thermal comfort study conducted in Hong Kong using longitudinal experiments—an alternative approach to conventional transverse surveys. In a longitudinal experiment, the thermal sensations of a relatively small number of subjects over different environmental conditions are followed and evaluated. This allows an exploration of the effects of changing climatic conditions on thermal sensation, and thus can provide information that is not possible to acquire through the conventional transverse survey. The paper addresses the effects of changing wind and solar radiation conditions on thermal sensation. It examines the use of predicted mean vote (PMV) in the outdoor context and illustrates the use of an alternative thermal index—physiological equivalent temperature (PET). The paper supports the conventional assumption that thermal neutrality corresponds to thermal comfort. Finally, predictive formulas for estimating outdoor thermal sensation are presented as functions of air temperature, wind speed, solar radiation intensity and absolute humidity. According to the formulas, for a person in light clothing sitting under shade on a typical summer day in Hong Kong where the air temperature is about 28°C and relative humidity about 80%, a wind speed of about 1.6 m/s is needed to achieve neutral thermal sensation. |
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| AbstractList | This paper presents the findings of an outdoor thermal comfort study conducted in Hong Kong using longitudinal experiments—an alternative approach to conventional transverse surveys. In a longitudinal experiment, the thermal sensations of a relatively small number of subjects over different environmental conditions are followed and evaluated. This allows an exploration of the effects of changing climatic conditions on thermal sensation, and thus can provide information that is not possible to acquire through the conventional transverse survey. The paper addresses the effects of changing wind and solar radiation conditions on thermal sensation. It examines the use of predicted mean vote (PMV) in the outdoor context and illustrates the use of an alternative thermal index—physiological equivalent temperature (PET). The paper supports the conventional assumption that thermal neutrality corresponds to thermal comfort. Finally, predictive formulas for estimating outdoor thermal sensation are presented as functions of air temperature, wind speed, solar radiation intensity and absolute humidity. According to the formulas, for a person in light clothing sitting under shade on a typical summer day in Hong Kong where the air temperature is about 28°C and relative humidity about 80%, a wind speed of about 1.6 m/s is needed to achieve neutral thermal sensation. This paper presents the findings of an outdoor thermal comfort study conducted in Hong Kong using longitudinal experiments—an alternative approach to conventional transverse surveys. In a longitudinal experiment, the thermal sensations of a relatively small number of subjects over different environmental conditions are followed and evaluated. This allows an exploration of the effects of changing climatic conditions on thermal sensation, and thus can provide information that is not possible to acquire through the conventional transverse survey. The paper addresses the effects of changing wind and solar radiation conditions on thermal sensation. It examines the use of predicted mean vote (PMV) in the outdoor context and illustrates the use of an alternative thermal index—physiological equivalent temperature (PET). The paper supports the conventional assumption that thermal neutrality corresponds to thermal comfort. Finally, predictive formulas for estimating outdoor thermal sensation are presented as functions of air temperature, wind speed, solar radiation intensity and absolute humidity. According to the formulas, for a person in light clothing sitting under shade on a typical summer day in Hong Kong where the air temperature is about 28°C and relative humidity about 80%, a wind speed of about 1.6 m/s is needed to achieve neutral thermal sensation. This paper presents the findings of an outdoor thermal comfort study conducted in Hong Kong using longitudinal experiments--an alternative approach to conventional transverse surveys. In a longitudinal experiment, the thermal sensations of a relatively small number of subjects over different environmental conditions are followed and evaluated. This allows an exploration of the effects of changing climatic conditions on thermal sensation, and thus can provide information that is not possible to acquire through the conventional transverse survey. The paper addresses the effects of changing wind and solar radiation conditions on thermal sensation. It examines the use of predicted mean vote (PMV) in the outdoor context and illustrates the use of an alternative thermal index--physiological equivalent temperature (PET). The paper supports the conventional assumption that thermal neutrality corresponds to thermal comfort. Finally, predictive formulas for estimating outdoor thermal sensation are presented as functions of air temperature, wind speed, solar radiation intensity and absolute humidity. According to the formulas, for a person in light clothing sitting under shade on a typical summer day in Hong Kong where the air temperature is about 28°C and relative humidity about 80%, a wind speed of about 1.6 m/s is needed to achieve neutral thermal sensation.This paper presents the findings of an outdoor thermal comfort study conducted in Hong Kong using longitudinal experiments--an alternative approach to conventional transverse surveys. In a longitudinal experiment, the thermal sensations of a relatively small number of subjects over different environmental conditions are followed and evaluated. This allows an exploration of the effects of changing climatic conditions on thermal sensation, and thus can provide information that is not possible to acquire through the conventional transverse survey. The paper addresses the effects of changing wind and solar radiation conditions on thermal sensation. It examines the use of predicted mean vote (PMV) in the outdoor context and illustrates the use of an alternative thermal index--physiological equivalent temperature (PET). The paper supports the conventional assumption that thermal neutrality corresponds to thermal comfort. Finally, predictive formulas for estimating outdoor thermal sensation are presented as functions of air temperature, wind speed, solar radiation intensity and absolute humidity. According to the formulas, for a person in light clothing sitting under shade on a typical summer day in Hong Kong where the air temperature is about 28°C and relative humidity about 80%, a wind speed of about 1.6 m/s is needed to achieve neutral thermal sensation. This paper presents the findings of an outdoor thermal comfort study conducted in Hong Kong using longitudinal experiments-an alternative approach to conventional transverse surveys. In a longitudinal experiment, the thermal sensations of a relatively small number of subjects over different environmental conditions are followed and evaluated. This allows an exploration of the effects of changing climatic conditions on thermal sensation, and thus can provide information that is not possible to acquire through the conventional transverse survey. The paper addresses the effects of changing wind and solar radiation conditions on thermal sensation. It examines the use of predicted mean vote (PMV) in the outdoor context and illustrates the use of an alternative thermal index-physiological equivalent temperature (PET). The paper supports the conventional assumption that thermal neutrality corresponds to thermal comfort. Finally, predictive formulas for estimating outdoor thermal sensation are presented as functions of air temperature, wind speed, solar radiation intensity and absolute humidity. According to the formulas, for a person in light clothing sitting under shade on a typical summer day in Hong Kong where the air temperature is about 28 degree C and relative humidity about 80%, a wind speed of about 1.6 m/s is needed to achieve neutral thermal sensation. |
| Author | Chan, Cecilia Givoni, Baruch Cheng, Vicky Ng, Edward |
| Author_xml | – sequence: 1 givenname: Vicky surname: Cheng fullname: Cheng, Vicky email: bkc25@cam.ac.uk organization: Department of Architecture, University of Cambridge – sequence: 2 givenname: Edward surname: Ng fullname: Ng, Edward organization: School of Architecture, The Chinese University of Hong Kong – sequence: 3 givenname: Cecilia surname: Chan fullname: Chan, Cecilia organization: City University of Hong Kong – sequence: 4 givenname: Baruch surname: Givoni fullname: Givoni, Baruch organization: Department of Architecture, University of California Los Angeles (UCLA) |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/21197549$$D View this record in MEDLINE/PubMed |
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| Keywords | Outdoor comfort Wind Thermal comfort Longitudinal Hong Kong |
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| References | 396_CR11 AD Penwarden (396_CR23) 1973; 8 BW Olesen (396_CR22) 1989; 95 M Nikolopoulou (396_CR19) 2006; 41 M Nikolopoulou (396_CR20) 1999; 42 KS Ahmed (396_CR1) 2003; 35 J Spagnolo (396_CR25) 2003; 38 E Ng (396_CR16) 2004 FJ Gravetter (396_CR8) 2008 ASHRAE (396_CR2) 2001 M Nikolopoulou (396_CR21) 2001; 70 396_CR28 ISO (396_CR12) 1998 J Khedari (396_CR13) 2000; 32 PO Fanger (396_CR6) 1972 S Thorsson (396_CR27) 2007; 27 E Ng (396_CR17) 2006 P Hoppe (396_CR10) 2002; 34 M Tacken (396_CR26) 1989; 24 E Ng (396_CR15) 2009; 44 396_CR4 P Hoppe (396_CR9) 1999; 43 A Matzarakis (396_CR14) 1999; 43 V Cheng (396_CR5) 2006; 49 B Givoni (396_CR7) 2003; 35 R Sasaki (396_CR24) 2000; 87 396_CR18 ASHRAE (396_CR3) 2004 |
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| SubjectTerms | Absolute humidity Adult Air temperature Animal Physiology Biological and Medical Physics Biophysics China Cities Climate Climate change Climatic conditions climatic factors Earth and Environmental Science Environment Environmental conditions Environmental Health Female Hong Kong Humans Humidity Longitudinal Studies Male Meteorology Middle Aged Original Paper Outdoors Plant Physiology Predicted Mean Vote index Radiant flux density Relative humidity Sensation Solar radiation Subtropical climates subtropics summer Sunlight Surveys Temperature Thermal comfort Thermosensing Tropical Climate Tropical climates Wind Wind effects Wind speed Young Adult |
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| Title | Outdoor thermal comfort study in a sub-tropical climate: a longitudinal study based in Hong Kong |
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