Cities feature complex and heterogeneous topographies that create highly-variable airflow
patterns and dynamics. The resulting extreme high and low winds challenge urban design’s
quest for maintaining a safe and comfortable environment. This study investigates these urban
wind extrema by conducting large-eddy simulations (LESs) in four American neighborhoods
with distinct topographic features and links the resulting winds to geometric indicators. By
analyzing the profile and spatial variation of the wind extrema, the simulations illustrate
that gust zones tend to occur along wind-oriented streets and on both sides of high-rise
buildings, while stagnation zones are mostly located in the lee of tall or wide buildings.
Potential geometric parameters explaining these winds extrema are investigated, including
the plan and frontal area fraction and the sky view factor. These findings advance our ability
to predict wind conditions solely based on urban geometry, and ultimately to design more
resilient, sustainable, and livable cities.
Wang, J., Llaguno, M., Li, Q., Giometto, M., & Bou-Zeid, E. (2025). Wind Extremes over Built Terrain: Characterization and Geometric Determinants. Boundary-Layer Meteorology, 191(11), 28. https://doi.org/10.1007/s10546-025-00899-9 (Original work published 2025)