Author(s)

Takanori Uchida^1*, Ryo Araya²

¹Research Institute for Applied Mechanics (RIAM), Kyushu University, Fukuoka, Japan.
²Environmental GIS Laboratory Co. Ltd, Fukuoka, Japan.

In this study, we developed a new computational fluid dynamics (CFD) model called Airflow Analyst that deepens the affinity between CFD and geographic information system (GIS). First, a precise simulation of the surface-mounted cube was conducted. Validation testing based on the obtained data confirmed the predictive accuracy of Airflow Analyst. Second, New National Stadium Japan (Tokyo Olympic Stadium) was accurately reproduced in a computer, capturing the latest detailed urban area data for the base. For the target of the constructed 3D models, simulations with a large number of grid points/cells (CFD) were conducted. These simulations reproduced the complex turbulent flow fields both inside and outside the stadium. The experiment successfully reproduced the CFD simulation using a large number of grid points/cells, where the conditions of the wind flow ventilation from the sky were similar to those of the intended stadium design.

CFD, LES, GIS, Surface-Mounted Cube, New National Stadium Japan

Uchida, T. and Araya, R. (2019) Practical Applications of the Large-Eddy Simulation Technique for Wind Environment Assessment around New National Stadium, Japan (Tokyo Olympic Stadium). Open Journal of Fluid Dynamics, 9, 269-291. doi: 10.4236/ojfd.2019.94018.