R. Booij scite author profile

The development of two shallow mixing layers with different water depths is analyzed experimentally by means of laser Doppler anemometry. The experiments show that bottom friction plays an important role in the growth of the mixing layer width and in the strength and dimensions of the large quasi two-dimensional turbulence structures therein. It is found in this study that the initial growth rate of both mixing layers is similar to what has been found for deep water plane mixing layers. Further downstream the reduction of the growth rate can be ascribed to the decrease of the velocity difference between the two ambient streams in combination with the suppression of the growth of the large turbulence structures. In the most shallow mixing layer considered, the influence of the bottom friction is dominant, impeding the further growth of the mixing layer width. It is demonstrated that the reduced mixing layer growth is related to a loss of coherence in the large turbulence structures. This loss of coherence also reduces the characteristic length-scale that establishes the lateral mixing of matter and momentum in the mixing layer. Eventually the water depth becomes the dominant length scale that determines the characteristic motion of the turbulence in that case. From the energy density spectra of the turbulence fluctuations and from the phase relation between the two velocity components in the horizontal plane it is concluded that large structures contribute most to the exchange of momentum in the mixing layer and thus to the Reynolds-stresses.

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Adaptation of secondary flow in nearly-horizontal flow

Kalkwijk

Booij

1986

Journal of Hydraulic Research

125

131

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To implement the generation and decay of secondary flow in steady or quasi-steady nearly-horizontal flow models an approximative method is proposed which takes account of the convection of momentum of secondary flow in streamwise direction. The method is employed both for the effects of Coriolis acceleration and curvature. It is shown that both effects are almost equivalent. The method is verified by comparison with results obtained in various flumes of rectangular or almost rectangular cross-section. The agreement between theory and experiments for the intensity of the secondary flow is quite satisfactory, although the theory presented cannot reproduce each detail. RESUME Afin d'incorporer la generation et Pamortissement des courants secondaires dans les modèles d'écoulement quasi-horizontaux en régime permanent ou quasi-permanent, une methode approximative est proposée qui prend en compte la convection de la quantité de mouvement de l'écoulement secondaire dans la direction principale de l'écoulement. La methode est appliquée a la fois aux effets de l'accélcration de Coriolis et de la courbure. Il est montré que les deux effets sont pratiquement equivalents. La methode est vérifiée par comparaison a des résultats expérimentaux obtenus dans divers canaux de section rectangulaire ou quasirectangulaire. On constate un accord satisfaisant entre theorie et experiences pour l'intensité du courant secondaire, bien que la theorie proposée ne puisse reproduire chaque détail du phénomène.

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Measurement of Fluctuating Pressures on Coarse Bed Material

2005

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Measurements and large eddy simulations of the flows in some curved flumes

Booij¹

2003

J. of Turbulence

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Measuring the flow structures that initiate stone movement

Hofland¹,

Booij²

2004

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R. Booij

Effects of shallowness on the development of free-surface mixing layers

Adaptation of secondary flow in nearly-horizontal flow

Measurement of Fluctuating Pressures on Coarse Bed Material

Measurements and large eddy simulations of the flows in some curved flumes

Measuring the flow structures that initiate stone movement

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