An introduction to the Universal Thermal Climate Index (UTCI)

The assessment of the thermal environment is one of the main issues in bioclimatic research, and more than 100 simple bioclimatic indices have thus far been developed to facilitate it. However, most of these indices have proved to be of limited applicability, and do not portray the actual impacts of thermal conditions on human beings. Indices derived from human heatbalance models (one- or two-node) have been found to offer a better representation of the environmental impact in question than do simple ones. Indeed, the new generation of multi-node models for human heat balance do allow full account to be taken of heat transfer and exchange, both within the human body and between the body surface and the surrounding air layer. In this paper, it is essential background information regarding the newly-developed Universal Thermal Climate Index UTCI that is presented, this in fact deriving from the Fiala multi-node model of human heatbalance. The UTCI is defined as the air temperature (Ta) of the reference condition causing the same model response as actual conditions. UTCI was developed in 2009 by virtue of international co-operation between leading experts in the areas of human thermophysiology, physiological modelling, meteorology and climatology. The necessary research for this had been conducted within the framework of a special commission of the International Society of Biometeorology (ISB) and European COST Action 730.

[1]  S. Tanabe,et al.  Evaluation of thermal comfort using combined multi-node thermoregulation (65MN) and radiation models and computational fluid dynamics (CFD) , 2002 .

[2]  Kevin J. Lomas,et al.  First principles modeling of thermal sensation responses in steady-state and transient conditions , 2003 .

[3]  K. Lomas,et al.  A computer model of human thermoregulation for a wide range of environmental conditions: the passive system. , 1999, Journal of applied physiology.

[4]  Jan A. J. Stolwijk,et al.  A mathematical model of physiological temperature regulation in man , 1971 .

[5]  IUPSThermalCommission Glossary of terms for thermal physiology (Third Edition) , 2001 .

[6]  George Havenith,et al.  UTCI-Fiala multi-node model of human heat transfer and temperature regulation , 2012, International Journal of Biometeorology.

[7]  L. D. Carlson,et al.  Glossary of Terms for Thermal Physiology. Glossary of Terms for Thermal Physiology' Members Uf International Commission for Thermal Physiohgy Sv&zv3 , 2012 .

[8]  Ingvar Holmér,et al.  Deriving the operational procedure for the Universal Thermal Climate Index (UTCI) , 2012, International Journal of Biometeorology.

[9]  Agnes Psikuta,et al.  Validation of the Fiala multi-node thermophysiological model for UTCI application , 2011, International Journal of Biometeorology.

[10]  K. Błażejczyk,et al.  Bioklimatyczne uwarunkowania rekreacji i turystyki w Polsce = Bioclimatic principles of recreation and tourism in Poland , 2004 .

[11]  G. Havenith Individualized model of human thermoregulation for the simulation of heat stress response. , 2001, Journal of applied physiology.

[12]  Ken Parsons,et al.  Human Thermal Environments: The Effects of Hot, Moderate, and Cold Environments on Human Health, Comfort and Performance , 1999 .

[13]  G. Havenith,et al.  The UTCI-clothing model , 2011, International Journal of Biometeorology.

[14]  UTCI - nowy wskaźnik oceny obciążeń cieplnych człowieka = UTCI - new index for assessment of heat stress in man , 2010 .

[15]  Edward Arens,et al.  Indoor Environmental Quality ( IEQ ) Title A model of human physiology and comfort for assessing complex thermal environments , 2001 .

[16]  K. Lomas,et al.  Computer prediction of human thermoregulatory and temperature responses to a wide range of environmental conditions , 2001, International journal of biometeorology.