Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Numerical modelling of flow through moving water-control gates by vortex method. Part II — calculation result
Computational results are presented for uniform approach flow past emergency gate model, placed in a 2–D channel with free water surface, for two cases: (1) fixed gate and (2) gate moving perpendicular to the water flow. The calculations were made in the dimensionless system, for the assumed Reynolds number Re = 106. The velocity field and vorticity field were determined by vortex method. On this basis the pressure distribution profile and hydrodynamic force were determined by means of boundary elements method. The vortex structures and the evolution of vortex shedding are illustrated by velocity field of vortex blobs for both cases — fixed and movable gate. We also presented the distribution of the pressure coefficient alongside the gate edge as well as the derivative lift and drag coefficients. The average force coefficients agree very well with the experimental values. The movement of downward of the gate substantially increases the calculated value of the lift coefficient.
Numerical modelling of flow through moving water-control gates by vortex method. Part II — calculation result
Computational results are presented for uniform approach flow past emergency gate model, placed in a 2–D channel with free water surface, for two cases: (1) fixed gate and (2) gate moving perpendicular to the water flow. The calculations were made in the dimensionless system, for the assumed Reynolds number Re = 106. The velocity field and vorticity field were determined by vortex method. On this basis the pressure distribution profile and hydrodynamic force were determined by means of boundary elements method. The vortex structures and the evolution of vortex shedding are illustrated by velocity field of vortex blobs for both cases — fixed and movable gate. We also presented the distribution of the pressure coefficient alongside the gate edge as well as the derivative lift and drag coefficients. The average force coefficients agree very well with the experimental values. The movement of downward of the gate substantially increases the calculated value of the lift coefficient.
Numerical modelling of flow through moving water-control gates by vortex method. Part II — calculation result
Numeryczne modelowanie przepływu przez ruchome zamknięcia wodne metodą wirów. Część II — wyniki obliczeń numerycznych
Kostecki, S. W. (Autor:in)
Archives of Civil and Mechanical Engineering ; 8 ; 39-49
01.12.2008
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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