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      Comparison of UTCI to selected thermal indices

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          Abstract

          Over the past century more than 100 indices have been developed and used to assess bioclimatic conditions for human beings. The majority of these indices are used sporadically or for specific purposes. Some are based on generalized results of measurements (wind chill, cooling power, wet bulb temperature) and some on the empirically observed reactions of the human body to thermal stress (physiological strain, effective temperature). Those indices that are based on human heat balance considerations are referred to as "rational indices". Several simple human heat balance models are known and are used in research and practice. This paper presents a comparative analysis of the newly developed Universal Thermal Climate Index (UTCI), and some of the more prevalent thermal indices. The analysis is based on three groups of data: global data-set, synoptic datasets from Europe, and local scale data from special measurement campaigns of COST Action 730. We found the present indices to express bioclimatic conditions reasonably only under specific meteorological situations, while the UTCI represents specific climates, weather, and locations much better. Furthermore, similar to the human body, the UTCI is very sensitive to changes in ambient stimuli: temperature, solar radiation, wind and humidity. UTCI depicts temporal variability of thermal conditions better than other indices. The UTCI scale is able to express even slight differences in the intensity of meteorological stimuli.

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          Most cited references23

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          The physiological equivalent temperature - a universal index for the biometeorological assessment of the thermal environment.

          P Hoppe (1999)
          With considerably increased coverage of weather information in the news media in recent years in many countries, there is also more demand for data that are applicable and useful for everyday life. Both the perception of the thermal component of weather as well as the appropriate clothing for thermal comfort result from the integral effects of all meteorological parameters relevant for heat exchange between the body and its environment. Regulatory physiological processes can affect the relative importance of meteorological parameters, e.g. wind velocity becomes more important when the body is sweating. In order to take into account all these factors, it is necessary to use a heat-balance model of the human body. The physiological equivalent temperature (PET) is based on the Munich Energy-balance Model for Individuals (MEMI), which models the thermal conditions of the human body in a physiologically relevant way. PET is defined as the air temperature at which, in a typical indoor setting (without wind and solar radiation), the heat budget of the human body is balanced with the same core and skin temperature as under the complex outdoor conditions to be assessed. This way PET enables a layperson to compare the integral effects of complex thermal conditions outside with his or her own experience indoors. On hot summer days, for example, with direct solar irradiation the PET value may be more than 20 K higher than the air temperature, on a windy day in winter up to 15 K lower.
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            Applications of a universal thermal index: physiological equivalent temperature.

            The physiological equivalent temperature, PET, is a thermal index derived from the human energy balance. It is well suited to the evaluation of the thermal component of different climates. As well as having a detailed physiological basis, PET is preferable to other thermal indexes like the predicted mean vote because of its unit ( degrees C), which makes results more comprehensible to urban or regional planners, for example, who are not so familiar with modern human-biometeorological terminology. PET results can be presented graphically or as bioclimatic maps. Graphs mostly display the temporal behaviour of PET, whereas spatial distribution is specified in bioclimatic maps. In this article, some applications of PET are discussed. They relate to the evaluation of the urban heat island in cities in both temperate climates and warm climates at high altitude. The thermal component of the microclimate in the trunk space of a deciduous forest is also evaluated by PET. As an example of the spatial distribution of PET, a bioclimatic map for Greece in July (Mediterranean climate) is presented.
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              Thermal comfort and the heat stress indices.

              Thermal stress is an important factor in many industrial situations, athletic events and military scenarios. It can seriously affect the productivity and the health of the individual and diminish tolerance to other environmental hazards. However, the assessment of the thermal stress and the translation of the stress in terms of physiological and psychological strain is complex. For over a century attempts have been made to construct an index, which will describe heat stress satisfactorily. The many indices that have been suggested can be categorized into one of three groups: "rational indices", "empirical indices", or "direct indices". The first 2 groups are sophisticated indices, which integrate environmental and physiological variables; they are difficult to calculate and are not feasible for daily use. The latter group comprises of simple indices, which are based on the measurement of basic environmental variables. In this group 2 indices are in use for over four decades: the "wet-bulb globe temperature" (WBGT) index and the "discomfort index" (DI). The following review summarizes the current knowledge on thermal indices and their correlates to thermal sensation and comfort. With the present knowledge it is suggested to adopt the DI as a universal heat stress index.
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                Author and article information

                Contributors
                k.blaz@twarda.pan.pl
                Journal
                Int J Biometeorol
                Int J Biometeorol
                International Journal of Biometeorology
                Springer-Verlag (Berlin/Heidelberg )
                0020-7128
                1432-1254
                26 May 2011
                26 May 2011
                May 2012
                : 56
                : 3
                : 515-535
                Affiliations
                [1 ]Institute of Geography and Spatial Organization, Polish Academy of Sciences, Twarda 51/55, Warsaw, 00-818 Poland
                [2 ]Sheba Medical Centre Tel Hashomer, Sackler Faculty of Medicine, Heller Institute of Medical Research, Tel Aviv University, Tel Aviv, Israel
                [3 ]Meteorological Institute, University of Freiburg, Werthmannstr. 10, 79085 Freiburg, Germany
                [4 ]Alte Yacher Str. 43, 79215 Elzach, Germany
                [5 ]Department Climate Monitoring, German Meteorological Service, Bernhard-Nocht-Str. 76, 20359 Hamburg, Germany
                Article
                453
                10.1007/s00484-011-0453-2
                3337419
                21614619
                59b7d8a0-3ff9-425c-9178-0b5150891550
                © The Author(s) 2011
                History
                : 17 May 2010
                : 1 April 2011
                : 5 May 2011
                Categories
                Special Issue (UTCI)
                Custom metadata
                © ISB 2012

                Atmospheric science & Climatology
                heat stress,environmental health,environment,animal physiology,microclimatic differentiation,meteorological variables,biophysics and biological physics,synoptic data,bioclimatic indices,environment, general,utci,meteorology/climatology,plant physiology

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