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http://dx.doi.org/10.5322/JES.2011.20.2.275

Impact of the Variation of Sea Breeze Penetration due to Terrain Complexity on PBL Development  

Park, Soon-Young (Division of Earth Environment System, Pusan National University)
Lee, Hwa-Woon (Division of Earth Environment System, Pusan National University)
Lee, Soon-Hwan (Institute of Environment Research, Pusan National University)
Lee, Kwi-Ok (Atmospheric Environment & Information Research Center, Inje University)
Ji, Hyo-Eun (Division of Earth Environment System, Pusan National University)
Publication Information
Journal of Environmental Science International / v.20, no.2, 2011 , pp. 275-289 More about this Journal
Abstract
In order to clarify the relation between sea breeze penetration and Planetary Boundary Layer development in southeastern part of the Korean Peninsula, several numerical assessments were carried out using atmospheric numerical model WRF(Weather Research and Forecasting). Compared with onset time of sea breeze at eastern coast area(Uljin), the time at southern coast region(Masan) with complex costal line tend to delay for several hours. The penetration patterns of sea breeze between two coastal regions are some different due to the shape of their coastal line and back ground topography. Intensified valley wind due to high topography of lee side of Uljin can help penetration of sea breeze at early time. So penetration of sea breeze at early time often prevent PBL to develop at Uljin and lower PBL height last for a day time. But because of late penetration of sea breeze at Masna, PBL Height dramatically decrease after 1500LST. The distribution of front genesis function based on the heat and momentum variation are explained obviously the sea breeze penetration patterns and agreed well with the PBL height distribution.
Keywords
Sea breeze; PBL height; WRF; Front genesis function; Complex topography;
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1 Lee, S. H., Kim, Y. K., Kim, H. S., Lee, H. W., 2007, Influence of dense surface meteorological data assimilation on the prediction accuracy of ozone pollution in the southeastern coastal area of the Korean Peninsula, Atmos. Env., 41(21), 4451-4465.   DOI
2 Mahrt, L., 1985, Vertical structure and turbulence in the very stable boundary layer, J. of Atmos. Sci., 42, 2332-2349.
3 Melas, D., Kioustioukis, I., Lazaridis, M., 2006, The impact of sea breeze on air quality in the Athens area, Advances in air pollution modelling for environmental security, vol. 54, Springer, Netherlands, 285-295.
4 Miller, S. T. K., Keim, B. D., Talbot, R. W., Mao, H., 2003, Sea breeze: structure, forecasting, and impacts, Rev. Geophys., 41(3), 1-1.
5 Mlawer, E. J., Taubman, S. J., Brown, P. D., M. Iacono, J., Clough S. A., 1997, Radiative transfer for inhomogeneous atmosphere: RRTM, a validated correlated-k model for the longwave, J. Geophys. Res., 102 (D14), 16663-16682.   DOI
6 Nieuwstadt, F.T.M., 1984, The turbulent structure of the stable, nocturnal boundary layer, J. of Atmos. Sci., 41, 2202-2216.   DOI
7 Noh, Y., Cheon, W. G., Hong, S. Y., and Raasch, S., 2003, Improvement of the K-profile model for the planetary boundary layer based on large eddy simulation data, Bound.-Layer Meteor., 107, 401-427.   DOI
8 Ryu, C.-S., Shin, Y.-M., Lee, S.-H., 2004, Numerical studies for effects of complicate coastal area on variation of mesoscale circulation, Asia-Pacific J. of Atmos. Sci., 40(1), 71-86, 2004.   과학기술학회마을
9 Talbot, C., Augustin, P., Leroy, C., Willart, V., Delbarre, H., Khomenko, G., 2007, Impact of a sea breeze on the boundary-layer dynamics and the atmospheric stratification in a coastal area of the North Sea, Boundary-Layer Meteorol., 125, 133-154.   DOI
10 Dudhia, J., 1989, Numerical study of convection observed during the winter monsoon experiment using a mesoscale two-dimensional model, J. Atmos. Sci., 46, 3077-3107.   DOI
11 Evtyugina, M. G., Nunes, T., Pio, C., Costa, C. S., 2006, Photochemical pollution under sea breeze conditions, during summer, at the Portuguese West Coast, Atmos. Env., vol. 40(33), 6277-6293.   DOI
12 Hong, S. Y., Noh, Y., Dudhia, J., 2006, A new vertical diffusion package with an explicit reatment of entrainment processes, Mon. Wea. Rev., 134, 2318-2341.   DOI
13 Hong, S. Y., and Pan, H. L., 1996, Nonlocal boundary layer vertical diffusion in a Medium-Range Forecast model, Mon. Wea. Rev., 124, 2322-2339.   DOI
14 Kain, J. S., Fritsch, J. M., 1993, Convective parameterization for mesoscale models: The Kain-Fritcsh scheme, The representation of cumulus convection in numerical models, K. A. Emanuel and D.J. Raymond, Eds., Amer. Meteor. Soc., 246.
15 Kitada, T., Kitagawa, E., 1990, Numerical analysis of the role of sea breeze fronts on air quality in coastal and inland polluted areas, Atmos. Env., 24(6), 1545-1559.   DOI   ScienceOn
16 Bouchlaghem, K., Mansour, F. B., Elouragini, S., 2007, Impact of a sea breeze event on air pollution at the Eastern Tunisian Coast, Atmos. Env., 86(2), 162-172.
17 Lee, H. W., Won, H. Y., Choi, H. J., Kim, H. G., 2005, Numerical simulation of effects of atmospheric flow fields using surface observational data on dispersion fields of air pollutants in Gwangyang bay, Korean J. of Atmos. Env., 21(2), 169-178.   과학기술학회마을
18 Lee, S. H., Lee, H. W., Kim, Y. K., 2002, Random walk simulation of atmospheric dispersion on surface urbanization over complex terrain, Korean J. of Atmos. Env., 18(2), 67-83.   과학기술학회마을
19 임헌호, 2000, 부산연안지역에서 해륙풍일의 선정과 기후학적인 특성에 관한 연구, 석사학위논문, 부산대학교.
20 Chen, F., Dudhia, J., 2001, Coupling an advanced land-surface/ hydrology model with the Penn State/NCAR MM5 modeling system. Part I: Model description and implementation. Mon. Wea. Rev., 129, 569-585.   DOI
21 Crosman, E. T., Horel, J. D., 2010, Sea and Lake Breezes: A review of numerical studies, Boundary-Layer Meteorol., 137, 1-29.   DOI
22 Clappier, A., Martilla, A., Grossi, P., Thunis, P., Pasi, F., Krueger, B.C., Calpini, B., Graziani, G., van den Bergh, H., 2000, Effect of sea breeze on air pollution in Greater Athens area. Part I: numerical simulations and field observations, J. Appl. Meteorol., 39, 546-562.   DOI