Experimental and numerical simulation of free surface flow over an obstacle on a sloped channel

Citation:

Boudjelal S, Fourar A, Massouh F. Experimental and numerical simulation of free surface flow over an obstacle on a sloped channel. Modeling Earth Systems and Environment [Internet]. 2021;8 :1025–1033.

Date Published:

2021

Abstract:

In the present study, both experimental and numerical were conducted on a free surface flow over an obstacle. Numerical simulations were performed using the Renormalization Group (RNG-k-ɛ) based Reynolds-Averaged Navier–Stokes (RANS) turbulence model coupled with the Volume OF Fluid (VOF) method in FLUENT Software to investigate the effect of the channel slope on the flow pattern upstream, above and downstream the obstacle. Respectively, 5%, 7%, 8%, 10%, 20% and 50% channel slopes were considered. Numerical simulation has showed a good agreement compared against experimental results. Effect of the slope on the flow is observed particularly upstream of the obstacle where the flow takes the vertical direction after hitting the upstream wall. The more the slope becomes steeper, the higher the level of the water is. Recirculation zones in the case of a horizontal channel are elongated downstream the weir, whereas in the case of a sloped channel, they are localized just at the foot of the downstream wall.

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Last updated on 09/26/2023