Estimation of urban mixed layer height in Zanjan using LIDAR observations and numerical modeling |
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Authors: | A A Bidokhti M Khoshsima S Sabetghadam H M Khalesifard |
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Institution: | (1) Institute of Geophysics, University of Tehran, Tehran, P. O. Box: 14155-6466, Iran;(2) Institute of Advanced Studies in Basic Sciences, Zanjan, Iran |
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Abstract: | Air pollution predictions often require the height of atmospheric mixed layer in time especially in big cities. Here, the
variation of the height of this layer is estimated from direct measurements and also from a numerical forecast model with
a high resolution boundary layer scheme. The height of the daytime mixed layer for the city of Zanjan (48.5°N, 36.7°E, 1700m
above sea level) is measured using a LIDAR (532 nm) system, which works based on aerosols scattering of laser light. The mixed
layer height (z
i
) for Zanjan city, well above mean sea level compared to other major cities in the world, is found to be between 1.4 km typically
in spring and 2.2 km in summer, for synoptic calm conditions. Also, the MM5 forecast model with a proper boundary layer scheme
(MRF) is used to estimate z
i
which shows rather good agreement with direct observations using the LIDAR system. The entrainment zone of the mixed layer
was also found to undergo some occasional temporal growth that may be attributed to shear instability that led to more mixed
layer growth. |
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Keywords: | Urban area mixed layer height LIDAR entrainment zone mesoscale numerical model (MM5) |
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