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W2917868982 abstract "Abstract The traditional Davenport Chain method, which is at the base of current wind engineering practice, is founded on the assumption that engineering structures are subjected to loads resulting from their interaction with synoptic winds approximated by atmospheric boundary layer (ABL) flow fields. Herein, we introduce a new class of non-synoptic winds and bring forward the differences between the two wind systems in terms of climatology, microclimatology due to the surface layer characteristics, aerodynamic loading, and structural responses. We use a set of downburst and tornado simulations conducted during the last couple of years in the Wind Engineering, Energy and Environment (WindEEE) Dome at Western University, Canada to investigate and illustrate these differences. We show ways in which geometric, kinematic and dynamic scaling can be defined for the non-synoptic wind systems. In the process, we analyze the assumptions related to the quasi-steady theory, which is at the base of the Davenport Chain for ABL winds. We then interrogate the applicability of these assumptions to the non-synoptic – three-dimensional, non-stationary and non-Gaussian (3D-NS-NG) – wind systems, such as tornadoes and downburst, and their actions on buildings and structures." @default.
W2917868982 created "2019-03-02" @default.
W2917868982 creator A5011380729 @default.
W2917868982 creator A5014066848 @default.
W2917868982 creator A5065445166 @default.
W2917868982 date "2019-11-01" @default.
W2917868982 modified "2023-09-28" @default.
W2917868982 title "Three-dimensional, non-stationary and non-Gaussian (3D-NS-NG) wind fields and their implications to wind–structure interaction problems" @default.
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W2917868982 doi "https://doi.org/10.1016/j.jfluidstructs.2019.01.024" @default.
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