Design-oriented evaluation of the hydrodynamics in a full-scale combined filter-lamella separator for urban stormwater treatment

Stricker, Max; Littfinski, Tobias; Heinz, Eva; Pecher, Klaus Hans; Lübken, Manfred; Grüning, Helmut; Wichern, Marc

doi:10.2166/wst.2022.135

Cited by 4 publications

(2 citation statements)

References 26 publications

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“…Settling is a widely used operation particularly employed for clarification of wastewaters from different industries and for urban stormwaters. − For instance, within the mining industry, sedimentation technology is a convenient alternative for the secondary treatment of turbid waters. Appropriate treatment of tailings has become very important related to the sustainability of the plants, and the flexibility of sedimentation allows its application to different tailings …”

Section: Introductionmentioning

confidence: 99%

“…Smaller units are required compared to conventional settlers or sedimentation basins . Many recent studies have focused on the optimization of units with lamellas using computational fluid dynamic (CFD) simulations. ,, Despite numerous research contributions studying lamellar settlers toward optimizing their design, they generally consider a suspended solid concentration, and scarce information is available regarding the analysis of particle trajectories. However, in many situations, isolated flocs are formed and take a distinct trajectory drafted by the flow lines.…”

Section: Introductionmentioning

confidence: 99%

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2D Path of a Radioactive Tracer within a Lamellar Settler: Experiments and Modeling

Fleite,

Maestri,

García

et al. 2023

Ind. Eng. Chem. Res.

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Determining and controlling the trajectory of solid flocs in a settler are of paramount importance to ensure the desired solid−liquid separation. This work evinces the feasibility of determining the motion of solid particles in a lamellar settler by using radioactive particle tracking and extracting relevant dynamic information from an approximate two-dimensional (2D) reconstruction. The experimental procedure involves simultaneously scanning different regions of the settler with scintillation detectors located at a given distance from the examined vessel while a radioactive tracer particle is freely moving inside. The complete reconstruction considers the system geometry, the attenuation of the medium (water), the activity of the radioactive tracer, and the efficiency of the detectors, determined by calibration. The approximate reconstruction considers that the detectors located closer to the tracer are the ones that record the largest number of counts. Then, searching for the detector with the highest number of counts and considering the ratio of the intensity measured by the closest ones, an approximate tracer axial bidimensional location is estimated. Compared to the results given by the radioactive particle tracking (RPT) technique, although the information extracted is more limited, the approximate experimental procedure has the advantage of not requiring a calibration stage, which could be complex for systems with varying solid holdup. Analysis of the particles' trajectories obtained with this methodology can be quite useful to assess a proper design of the settler. For instance, the upper limit of the working flow rate and the mean residence time of the flocs before settling can be determined. The particle motion is simulated with a volume-of-fluid (VOF) method implemented in Gerris open-access software, and compared to the experimental results.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

2D Path of a Radioactive Tracer within a Lamellar Settler: Experiments and Modeling

Fleite,

Maestri,

García

et al. 2023

Ind. Eng. Chem. Res.

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Separation efficiency of a wastewater bar screen based on a 3D computational fluid dynamics modeling

En-Nabety,

Boudi

2024

Desalination and Water Treatment

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Hydraulic modeling of a compact stormwater treatment device applying concepts of dynamic similitude

Stricker

Littfinski

Pecher³

et al. 2023

Water Science &Amp; Technology

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The development of compact treatment devices (CTDs) with high removal efficiencies and low space requirements is a key objective of urban stormwater treatment. Thus, many devices utilize a combination of sedimentation and upward-flow filtration in a single system. Here, sedimentation is used before filtration, which makes it difficult to evaluate the individual treatment stages separately. This study determines the removal efficiency by sedimentation and the expected filter load in a specific compact treatment device designed for a catchment area of up to 10,000 m2. In contrast to a full-scale investigation, small-scale physical hydraulic modeling is applied as a new cost-saving alternative. To validate upscaling laws, tracer signals and particle-size-specific removal efficiencies are determined for two geometrically similar models at different length scales. Thereby, Reynolds number similarity produces similar flow patterns, while the similarity of Hazen numbers allows upscale removal efficiencies. Upscaling to the full-scale reveals that the filter in the device is only partly loaded by particulate matter that consists mostly of particles ≤63 μm. Thus, sedimentation upstream of a filter is of relevant importance in CTDs. The proposed dimensionless relationship may be used for particles from different catchments and helps to size the device accordingly.

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Design-oriented evaluation of the hydrodynamics in a full-scale combined filter-lamella separator for urban stormwater treatment

Cited by 4 publications

References 26 publications

2D Path of a Radioactive Tracer within a Lamellar Settler: Experiments and Modeling

2D Path of a Radioactive Tracer within a Lamellar Settler: Experiments and Modeling

Separation efficiency of a wastewater bar screen based on a 3D computational fluid dynamics modeling

Hydraulic modeling of a compact stormwater treatment device applying concepts of dynamic similitude

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