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Velocity Gradient Optimization in a Perforated Tray-Type Flocculator using OpenFOAM: CFD as a Tool in Water Treatment

Publish place: Journal of Applied Fluid Mechanics، Vol: 15، Issue: 2
Publish Year: 1401
نوع سند: مقاله ژورنالی
زبان: English
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لینک ثابت به این Paper:
https://civilica.com/doc/1392599

شناسه ملی سند علمی:

JR_JAFM-15-2_007

تاریخ نمایه سازی: 18 بهمن 1400

Abstract:

Analysis of the velocity gradient of flocculators through Computational Fluid Dynamics (CFD) simulation can be essential to the optimization of hydraulic conditions in Water Treatment Plants. This study aims to simulate the velocity field in the last tank of a perforated tray-type flocculator and quantify locally velocity gradient (G) through CFD. This stage of flocculation has a higher risk of flocs rupture when there are not adequate conditions. Thus, simulations occurred at the flocculator current operational flow rate (۷ ls-۱), and at full capacity (۹ ls-۱). An alternative cost-effective and easy to implement modification was tested by increasing the number of orifices in the flocculator trays. As result, the velocity field indicates the formation of dead zones at the edges of the tank for all simulations, which facilitates short circuit occurrences. This is an indicator of reductions in water treatment efficiency. After structural modifications, simulations indicate a reduction in dead zone areas. Plus, as the flow rate increases, the maximum G inside the structure increases considerably (۱۸۴ to ۲۶۶ s-۱), causing a risk for floc rupture. However, changing the number of orifices from ۲۲ to ۳۳ creates conditions for the flocculator to operate at higher flow rates without increasing the velocity gradient.

Keywords:

Water Treatment Plant , Turbulence , floc rupture , orifices , hydraulics

Authors

P. A. Melo

Department of Water Resources and Sanitation, Lavras Federal University, Postal Code ۳۰۳۷, Campus Universitario, Lavras, Brazil

E. R. C. G. Freire

Department of Mathematics and Applied Mathematics, Lavras Federal University, Postal Code ۳۰۳۷, Campus Universitario, Lavras, Brazil

J. L. Ansoni

Department of Mathematics and Applied Mathematics, Lavras Federal University, Postal Code ۳۰۳۷, Campus Universitario, Lavras, Brazil

L. F. C. Oliveira

Department of Water Resources and Sanitation, Lavras Federal University, Postal Code ۳۰۳۷, Campus Universitario, Lavras, Brazil

c. s. Franco

Department of Water Resources and Sanitation, Lavras Federal University, Postal Code ۳۰۳۷, Campus Universitario, Lavras, Brazil

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