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Direct numerical simulation of high aspect ratio spanwise-aligned barsThe minimal-span channel for rough-wall turbulent flowsAnalysis of the coherent and turbulent stresses of a numerically simulated rough wall pipeTurbulent flow over transitionally rough surfaces with varying roughness densitiesThe minimal channel: a fast and direct method for characterising roughnessA fast direct numerical simulation method for characterising hydraulic roughnessA systematic investigation of roughness height and wavelength in turbulent pipe flow in the transitionally rough regimeHydrodynamic persistence within very dilute two-dimensional suspensions of squirmersSecondary motion in turbulent pipe flow with three-dimensional roughness
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Q58469062-A17C301A-360C-4906-88F3-20F6E0A0B60BQ58469064-3AE7FE38-0449-4AB5-9360-B6E6C9F8DBA9Q58469066-2BD63709-05C7-4FD6-AD06-B8D95AADFEFAQ58469068-EB015CD5-77D6-4966-84DD-A7BA7E87C105Q58469071-5DB629A1-2C62-49A6-A210-D2B0A8AD9644Q58469073-557CBB7B-A2C7-4FC9-BDE1-178878A1B371Q58469075-3EB420DC-2E4D-462D-AF32-CB4FA8FE963CQ58469077-C09D4667-E31B-4031-98F6-7E9AE6A9D5FDQ59712563-E56B2783-507C-4C09-91EC-B03C37D16F55
P50
description
researcher ORCID ID = 0000-0001-6348-6392
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wetenschapper
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name
Michael MacDonald
@ast
Michael MacDonald
@en
Michael MacDonald
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Michael MacDonald
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type
label
Michael MacDonald
@ast
Michael MacDonald
@en
Michael MacDonald
@es
Michael MacDonald
@nl
prefLabel
Michael MacDonald
@ast
Michael MacDonald
@en
Michael MacDonald
@es
Michael MacDonald
@nl
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0000-0001-6348-6392