Subjective estimation of thermal environment in recreational urban spaces—Part 1: investigations in Szeged, Hungary

During two investigation periods in transient seasons (14 weekdays in autumn 2009 and 15 weekdays in spring 2010) 967 visitors in two inner city squares of Szeged (Hungary) were asked about their estimation of their thermal environment. Interrelationships of subjective assessments—thermal sensation,...

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Bibliographic Details
Published in:International journal of biometeorology 2012-11, Vol.56 (6), p.1075-1088
Main Authors: Kántor, Noémi, Égerházi, Lilla, Unger, János
Format: Article
Language:English
Subjects:
Air temperature
Animal Physiology
Biological and Medical Physics
Biometeorology
Biophysics
Cities
Earth and Environmental Science
Environment
Environmental Health
Female
Humans
Hungary
Male
Meteorology
Original Paper
Parks & recreation areas
Perceptions
Plant Physiology
Recreation
Relative humidity
Solar radiation
Surveys and Questionnaires
Temperature
Thermosensing
Urban areas
Wind speed
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Summary:During two investigation periods in transient seasons (14 weekdays in autumn 2009 and 15 weekdays in spring 2010) 967 visitors in two inner city squares of Szeged (Hungary) were asked about their estimation of their thermal environment. Interrelationships of subjective assessments—thermal sensation, perceptions and preferences for individual climate parameters—were analyzed, as well as their connections with the prevailing thermal conditions [air temperature, relative humidity, wind velocity, mean radiant temperature and physiologically equivalent temperature (PET)]. Thermal sensation showed strong positive relationships with air temperature and solar radiation perception, while wind velocity and air humidity perception had a negative (and weaker) impact. If a parameter was perceived to be low or weak, then it was usually desired to be higher or stronger. This negative correlation was weakest in the case of humidity. Of the basic meteorological parameters, Hungarians are most sensitive to variations in wind. Above PET = 29°C, people usually prefer lower air temperature and less solar radiation. The temperature values perceived by the interviewees correlated stronger with PET, but their means were more similar to air temperature. It was also found that the mean thermal sensation of Hungarians in transient seasons depends on PET according to a quadratic function ( R 2  = 0.912) and, consequently, the thermal comfort ranges of the locals differ from that usually adopted.
ISSN:0020-7128
1432-1254
DOI:10.1007/s00484-012-0523-0