Evaluation of Atmospheric Stability Classification Methods for Practical Use

대기안정도 분류방법의 평가 및 실용화에 관한 연구

  • 김정수 (국립환경연구원 대기연구부) ;
  • 최덕일 (국립환경연구원 대기연구부) ;
  • 최기덕 (국립환경연구원 대기연구부) ;
  • 박일수 (국립환경연구원 대기연구부)
  • Published : 1996.10.01

Abstract

Major atmospheric stability classification methods were evaluated with meteorological data obtained by scoustic sounding profiler (SODAR/RASS) in Seoul. The Psequill classificatio method, the method most widely used because of its good agreement in respect of synoptic scope under the steady state, fails to describe the time lag, the response time on stability by heating or cooling caused by daily insolation or noctrunal surface radiation. Horizontal and vertical standard deviation of wind fluctuation $(\sigma_A and \sigma_E)$ method tend to classify night-time stable condition (E, F class) into unstable condition (A, B class). The classification matrix tables for Vogt's vertical temperature difference and wind speed using method ($\Delta$T $\cdot$ U) and bulk Richardson number (Rb) were amended for practical use over Seoul. The modified tables for $\Delta$T $\cdot$ U and Rb method were made by using comprehensive frequency distribution from Pasquill's method and other existing results, and the correlation coefficient(r) was equal to 0.829. It was confirmed that atmospheric stability could be changed with monitoring site characteristics, height and vertical difference between sensors of monitoring station, and classification method itself.

Keywords

References

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