日本地球惑星科学連合2014年大会

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セッション記号 A (大気海洋・環境科学) » A-AS 大気科学・気象学・大気環境

[A-AS01_30PM1] Extreme Weather in Cities

2014年4月30日(水) 14:15 〜 15:45 423 (4F)

コンビーナ:*真木 雅之(鹿児島大学地域防災教育研究センター)、松本 淳(首都大学東京大学院都市環境科学研究科地理環境科学専攻)、小司 禎教(気象研究所気象衛星・観測システム研究部第2研究室)、中谷 剛(独立行政法人 防災科学技術研究所)、座長:真木 雅之(鹿児島大学地域防災教育研究センター)

14:15 〜 14:30

[AAS01-13] The Impacts of extreme weather on urban water bodies

*MEZEMATE Yacine1FITTON George1TCHIGUIRINSKAIA Ioulia1SCHERTZER Daniel1BONHOMME Celine1SOULIGNAC Frederic1LEMAIRE Bruno1VINCON LEITE Brigitte1 (1.Universite Paris Est, Ecole des Ponts ParisTech, LEESU, Marne La Vallee, France)

キーワード:Urban Lake, Turbulence, Extreme Weather, Boundary-Layer

In the event of heavy rainfall, large amounts of storm water will carry roof runoff pollutants into urban lakes. This kind of discharge not only changes the dynamics of the lake (i.e. the mixing processes that occur) but also complicates ones ability to predict pollutant concentrations. Being able to quantify these changes in pollutant during and after extreme weather events is important for water quality management.In the interest of understanding the impact of extreme weather events on water bodies, we set-up an Acoustic Doppler Current Profiler (ADCP) next to a storm water discharge point at the bottom of a shallow urban lake in Creteil, a region in Paris.The ADCP is particularly useful for analysing the turbulent boundary-layer (TBL) during these extreme weather events as it is able to measure the 3D velocity, in 127 vertical cells, over 3 meters. This is a unique situation compared to the atmospheric boundary-layer where profilers are typically coarsely spaced in the vertical.To analyse the TBL dynamics we look only at the scaling properties of the velocity field. If the velocity is scaling the log-log plot of the energy spectra will be linear in wavenumber (or frequency). The slope of the log-log plot of the spectra gives the spectral scaling exponent. Performing the analysis we find a spectral exponent close to -1. Dimensional arguments suggest that this exponent occurs when the energy flux becomes dependent on the friction velocity instead of the length scale; likely a result of the strong inflow during extreme rainfall events. The ADCP data allows us to observe a smooth transition from a free stream turbulent regime (-5/3) to a bounded-turbulent exponent (-1) through depth. This kind of analysis suggests the possibility for a general scaling model of the TBL that can be used to predict the mixing of pollutants during and after extreme weather events.