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KMID : 1024520020110121195
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Journal of the Environmental Sciences
2002 Volume.11 No. 12 p.1195 ~ p.1204
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Estimation of dose rate using radiative transfer equations
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Moon Yun-Seob
Kim Yoo-Keun
Lee Young-Mi
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Abstract
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We calculated dose rate using radiative transfer equations to consider radiative processes distinctly. The dose rate at Pohang(36¡Æ02¡¯N, 129¡Æ23¡¯E) was calculated using measured ozone and meteorological data and two-stream approximations(quadrature, Eddington, delta Eddington, PIFM(practical improved flux method), discrete ordinate, delta discrete ordinate) are used in solving equation. The purpose of this study is to determine the most compatible radiative transfer approximation for simulating the radiative and photochemical processes of atmosphere through comparision between calculated and measured values. Dose rate of the biologically effective irradiance in the region 0.28-0.32 U m showed the highest value when quadrature and Eddington was used and lower value on condition that delta scaling was applied. Correlation coefficient between dose rate at surface using radiation transfer equation and measured UV-B at Pohang was 0.78, 0.79 and 0.81 when delta Eddington, PIFM and delta discrete ordinate were used. Also, in case of above approximations were used, MBE(Mean Bias Error) was within -0.3MED/30min and RMBE(Relative Mean Bias Error) was below 10% between 1200 LST and 1400 LST Approximations which are compatible in estimating radiative process are delta Eddington, PIFM and delta discrete ordinate. Especially, in case that radiative process is considered more detail, delta discrete ordinate increased the number of stream is proper.
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KEYWORD
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Radiation transfer equation, Two-stream approximation, Dose rate
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