Large-Eddy Simulation of Coherent Flow Structures within a Cubical Canopy
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- 作者:Atsushi Inagaki (1) inagaki.a.ab@m.titech.ac.jp
Marieta Cristina L. Castillo (1)
Yoshimi Yamashita (1)
Manabu Kanda (1)
Hiroshi Takimoto (1) - 关键词:Cavity eddy – ; Cubical canopy – ; Flushing – ; Instantaneous flow regime – ; Large ; eddy simulation – ; Turbulent organized structure
- 刊名:Boundary-Layer Meteorology
- 出版时间:February 2012
- 出版年:2012
- 期刊代码:15_00068314
- 类别:mat
- 卷:142
- 期:2
- 页码:207-222
- 数据来源:sp
摘要
Instantaneous flow structures “within” a cubical canopy are investigated via large-eddy simulation. The main topics of interest are, (1) large-scale coherent flow structures within a cubical canopy, (2) how the structures are coupled with the turbulent organized structures (TOS) above them, and (3) the classification and quantification of representative instantaneous flow patterns within a street canyon in relation to the coherent structures. We use a large numerical domain (2,560 m 脳 2,560 m 脳 1,710 m) with a fine spatial resolution (2.5 m), thereby simulating a complete daytime atmospheric boundary layer (ABL), as well as explicitly resolving a regular array of cubes (40 m in height) at the surface. A typical urban ABL is numerically modelled. In this situation, the constant heat supply from roof and floor surfaces sustains a convective mixed layer as a whole, but strong wind shear near the canopy top maintains the surface layer nearly neutral. The results reveal large coherent structures in both the velocity and temperature fields “within” the canopy layer. These structures are much larger than the cubes, and their shapes and locations are shown to be closely related to the TOS above them. We classify the instantaneous flow patterns in a cavity, specifically focusing on two characteristic flow patterns: flushing and cavity-eddy events. Flushing indicates a strong upward motion, while a cavity eddy is characterized by a dominant vortical motion within a single cavity. Flushing is clearly correlated with the TOS above, occurring frequently beneath low-momentum streaks. The instantaneous momentum and heat transport within and above a cavity due to flushing and cavity-eddy events are also quantified.