Inagaki, Atsushi*; Onodera, Naoyuki 
; Kanda, Manabu*; Aoki, Takayuki*
Since urban atmospheric environment is strongly controlled by multi-scale flow dynamics, simulation of the urban atmospheric boundary layer requires fine grid spacing and huge computational domain. We accomplished to simulate an urban atmospheric boundary layer using a Large Eddy Simulation model running on TSUBAME super computing system. Flow characteristics within and above a building canopy were successfully examined.
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: | English |
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: | 18th SIAM Conference on Parallel Processing for Scientific Computing (PP-18) |
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: | 2018/03 |
Location (city) |
: | Tokyo |
Location (country) |
: | Japan |
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