Enhanced conduction-corrected modified effective temperature as the outdoor thermal environment evaluation index upon the human body

This paper aims to clarify the handling technique of the solar radiation in an element of the thermal environment evaluation indices and to add expansions and improvements to conduction-corrected modified effective temperature ETF (Kurazumi et al., 2009) that can quantify the comprehensive effect on...

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Veröffentlicht in:Building and environment 2011, Vol.46 (1), p.12-21
Hauptverfasser: Kurazumi, Yoshihito, Fukagawa, Kenta, Yamato, Yoshiaki, Tobita, Kunihito, Kondo, Emi, Tsuchikawa, Tadahiro, Horikoshi, Tetsumi, Matsubara, Naoki
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Sprache:eng
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Zusammenfassung:This paper aims to clarify the handling technique of the solar radiation in an element of the thermal environment evaluation indices and to add expansions and improvements to conduction-corrected modified effective temperature ETF (Kurazumi et al., 2009) that can quantify the comprehensive effect on sensational and physiological sense and the effect of individual meteorological elements on the same evaluation axis applicable to an outdoor environment. Mean radiant temperature and radiant heat transfer coefficient of the outdoor space was defined. Enhanced conduction-corrected modified effective temperature ETFe that is ETF including short-wave solar radiation in outdoor space was defined. This sensational and physiological climatic environment index can make temperature convert each effect of difference in posture; air velocity; long-wave radiation in the outdoor space; short-wave solar radiation; contact surface temperature and humidity into individual meteorological elements. The addition of each temperature-converted factor is possible and quantifying the composite effect on sensational and physiological sense in the outdoor spaces as well as the discrete effect of each meteorological element is possible on the same evaluation axis. Consequently, it is possible to make the climate modification effects due to tree shade and areas of water that improve the urban thermal environment quantitatively explicit.
ISSN:0360-1323
1873-684X
DOI:10.1016/j.buildenv.2010.06.012