Water Supply (Apr 2022)
Performance of rectangular labyrinth weir – an experimental and numerical study
Abstract
Labyrinth weirs are commonly used to increase the capacity of existing spillways and provide more efficient spillways for new dams due to their high specific discharge capacity compared to the linear weir. In the present study, an experimental and numerical investigation was conducted to improve the rectangular labyrinth weir performance. In this context, four configurations were tested to evaluate the influence of the entrance shape and alveoli width on its discharge capacity. The experimental models, three models of rectangular labyrinth weir with a rounded entrance and one with a flat entrance, were tested in rectangular channel conditions for inlet width to outlet width ratios (a/b) equal to 0.67, 1 and 1.5. The results indicate that the rounded entrance increases the weir efficiency by up to 5%. A ratio a/b equal to 1.5 leads to an 8 and 18% increase in the discharge capacity compared to a/b ratio equal to 1 and 0.67, respectively. In addition, a numerical simulation was conducted using the open-source Computational Fluid Dynamics (CFD) OpenFOAM to analyze and provide more information about the flow behavior over the tested models. A comparison between the experimental and numerical discharge coefficient was performed and good agreement was found (mean absolute relative error of 4–6%). HIGHLIGHTS This paper presents the efficiencies of rectangular labyrinth weirs with flat and rounded entrances for channel applications.; The rectangular labyrinth weir efficiency is mainly dependent on its inlet alveoli capacity.; Both numerical and experimental models provided close results.; An InterFoam solver produced more information about the effect of inlet shape and the alveoli widths.;
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