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      특수일사계를 이용한 맑은 날 일사량의 온도 보정 = Temperature Correction of Solar Radiation on Clear Sky Using by Modified Pyranometer

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      https://www.riss.kr/link?id=A100323763

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      다국어 초록 (Multilingual Abstract)

      Pyranometer have many uncertainty factors (sensitivity function, thermal offset, other spectral effect, geometric, environment, and equipment etc.) than pyrheliometer. The solution for most of the uncertainty factors have been researched, but the prob...

      Pyranometer have many uncertainty factors (sensitivity function, thermal offset, other spectral effect, geometric, environment, and equipment etc.) than pyrheliometer. The solution for most of the uncertainty factors have been researched, but the problem for thermal offset is being continued research so far. Under the clear sky, due to the thermal offset of pyranometer, the diffuse and global radiation have been negative value for the nighttime and lower value for the daytime, respectively. In order to understand the uncertainty of the thermal offset effect, solar radiation are observed and analyzed using Ji and Tsay method and date from modified pyranometer.
      As a result of performing temperature correction using the modified pyranometer, the slope (dome factor; k) and intercept (r0) from a linear regression method are 0.064 and 3.457 g·m<SUP>-2</SUP>·k<SUP>-1</SUP>, respectively. And the solar radiation is decreased significantly due to the effect of thermal offset during nighttime. The solar radiation from modified pyranometer increased approximately 8% higher than its observed by general pyranometer during daytime. By the way, these results and did not generalize because its result is for only single case in clear sky. Accordingly, it is to required for accurate results-obtained by the various cases (clear, cloudy and rainy) with longterm observations.

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      목차 (Table of Contents)

      • Abstract
      • 1. 서론
      • 2. 일사계 온도 보정
      • 3. 결과
      • 4. 결론
      • Abstract
      • 1. 서론
      • 2. 일사계 온도 보정
      • 3. 결과
      • 4. 결론
      • Reference
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      참고문헌 (Reference)

      1 지준범, "지형 효과를 고려한 지표면 태양광 분포" 한국지구과학회 32 (32): 190-199, 2011

      2 C. Frohlich, "World Radiometric Reference: WMO/CIMO Final Report" 97-100, 1977

      3 WMO, "WMO-8 Guide to Meteorological Instruments and Methods of Observation, Secretariat of the World Meteorological Organization"

      4 M. Wild, "Validation of GCM simulated radiative fluxes using surface observations" 8 : 1309-1324, 1995

      5 R. Philipona, "Underestimation of Solar Global and Diffuse Radiation Measured at Earth's Surface" 107 (107): 4654-, 2002

      6 S. Kato, "Uncertainties in modeled and measured and measured clear-sky surface shortwave irradiance" 32 (32): 25881-25898, 1997

      7 C. G. Abbot, "The pyranometer- An instrument for measuring sky radiation" 66 (66): 1-7, 1916

      8 M. Wild, "The disposition of radiative energy in the global climate system: GCM versus observational estimates" 14 : 853-869, 1998

      9 M. S. Amie, "Prediction and measurement of thermal exchanges within pyranometers" 8-, 1999

      10 J. J. Michalsky, "Optimal measurement of surface shortwave irradiance using current instrumentation" 16 : 55-69, 1999

      1 지준범, "지형 효과를 고려한 지표면 태양광 분포" 한국지구과학회 32 (32): 190-199, 2011

      2 C. Frohlich, "World Radiometric Reference: WMO/CIMO Final Report" 97-100, 1977

      3 WMO, "WMO-8 Guide to Meteorological Instruments and Methods of Observation, Secretariat of the World Meteorological Organization"

      4 M. Wild, "Validation of GCM simulated radiative fluxes using surface observations" 8 : 1309-1324, 1995

      5 R. Philipona, "Underestimation of Solar Global and Diffuse Radiation Measured at Earth's Surface" 107 (107): 4654-, 2002

      6 S. Kato, "Uncertainties in modeled and measured and measured clear-sky surface shortwave irradiance" 32 (32): 25881-25898, 1997

      7 C. G. Abbot, "The pyranometer- An instrument for measuring sky radiation" 66 (66): 1-7, 1916

      8 M. Wild, "The disposition of radiative energy in the global climate system: GCM versus observational estimates" 14 : 853-869, 1998

      9 M. S. Amie, "Prediction and measurement of thermal exchanges within pyranometers" 8-, 1999

      10 J. J. Michalsky, "Optimal measurement of surface shortwave irradiance using current instrumentation" 16 : 55-69, 1999

      11 A. G. Christian, "Modeling solar radiation at the earth surface - Chapter 1 Solar radiation measurement: progress in radiometry for improved modeling" Springer 12-17, 2007

      12 E. G. Dutton, "Measurement of broadband diffuse solar irradiance using current commercial instrumentation with a correction for thermal offset error" 18 : 297-314, 2001

      13 A. Berk, "MODTRAN(R)(R)5.2.1 User's Manual"

      14 J. R. Garratt, "Incoming shortwave fluxes at the surface - a comparison of GCM results with observations" 7 : 72-80, 1994

      15 B. M. Hickey, "Ecology of the Southern California Bight" University of California Press 1993

      16 A. J. Drummond, "Corrections to be applied to measurements made with wppley (and other) spectral radiometers when used with schott colored glass filters" 4 : 741-744, 1965

      17 L. J. B. McArthur, "Baseline Surface Radiation Network (BSRN), Operations Manual"

      18 Q. Ji, "A novel nonintrusive method to resolve the thermal dome effect of pyranometers: radiometric calibration and implications" 116 : 2011

      19 Q. Ji, "A novel nonintrusive method to resolve the thermal dome effect of pyranometers: instrumentation and observational basis" 115 : 2010

      20 J. Walker, "A Technique for Improving the Calibration of Large-area Sphere Sources" 1493 : 224-230, 1991

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      2005-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
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