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Flow in sharp corner
Flow in V-shaped open channel is studied in Reynolds number regime where laminar and turbulent flow can coexist; narrow corner produces relatively thick laminar sublayer which permits insertion of measuring apparatus for its study; flow can be divided into three distinct regions -- laminar, transition and turbulent -- approximately along lines of equal velocity; transition region is characterized by intermittent turbulence, especially near turbulent limit; some of turbulent properties which characterize transition and turbulent region are shown and mechanism of instability is hypothesized.
Flow in sharp corner
Flow in V-shaped open channel is studied in Reynolds number regime where laminar and turbulent flow can coexist; narrow corner produces relatively thick laminar sublayer which permits insertion of measuring apparatus for its study; flow can be divided into three distinct regions -- laminar, transition and turbulent -- approximately along lines of equal velocity; transition region is characterized by intermittent turbulence, especially near turbulent limit; some of turbulent properties which characterize transition and turbulent region are shown and mechanism of instability is hypothesized.
Flow in sharp corner
ASCE -- Proc (J Hydraulics Div)
Matthews, R.J. (Autor:in) / Liggett, J.A. (Autor:in)
1967
21 pages
Aufsatz (Zeitschrift)
Englisch
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