Examining the effect of hydraulic turbulence in a rapid mixer on turbidity removal with CFD simulation and PIV analysis

Park, No-Suk; Park, Heekyung; Kim, Jong-Sub

doi:10.2166/aqua.2003.0010

Cited by 9 publications

(5 citation statements)

References 18 publications

(22 reference statements)

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“…The derivation of the equation given by Eqs. (9), (10) and (11) allows computation of the weir discharges using numerical methods by applying the Runge-Kutta method. In order to implement the computation using a BASIC computer program, a procedure and flow chart has been prepared which is outlined below.…”

Section: Resultsmentioning

confidence: 99%

“…Such models are also supported by actual measurement of velocity at points within the reactor tank using acoustic Doppler velocimetery [1]. Computational fluid dynamic (CFD) models typically use finite volume analysis by splitting the volume of the reactor tank into large number of small grid volumes (cells) within which the fluid momentum and continuity equations are formulated together with specification of the boundary conditions for different flow conditions [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

“…The effect of uniform flow distribution devices using more refined CFD models has been studied by a number of researchers and significant improvement in agreement between the model and reality has been reported [1,[12][13][14][15][16]. Park et al [3] proposed providing diffuser walls inside flow distribution channel to achieve a more uniform flow distribution.…”

Section: Introductionmentioning

confidence: 99%

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Numerical method and program for computing inlet flow distribution in sedimentation tanks

Tiruneh¹,

Debessai²

2020

Math. models, eng.

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Inlet flow distribution devices play an important role in providing uniform flow distribution in water treatment process units such as sedimentation tanks. Orifices and weirs are commonly provided along the inlet flow channels that are built across the width of sedimentation tanks. This paper presents a numerical method and computer program for computation of the inlet flow distribution over weirs and orifices. The method is based on solving a differential equation of the flow profile along the flow distribution channel using numerical technique, namely, the Runge-Kutta method. The method replaces the trial and error step employed in earlier methods in the determination of weir discharge depths. Application examples are provided in which more uniform flow distribution were achieved by employing wider channel and full tapering of the inlet flow channel geometry or through partial tapering of the ends of the channel. The method can be extended for computation of inlet flow distribution in other similar water and wastewater treatment process units that employ weirs and orifices.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Numerical method and program for computing inlet flow distribution in sedimentation tanks

Tiruneh¹,

Debessai²

2020

Math. models, eng.

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“…The CFD simulation works by splitting the geometry of interest into a large number of elements, collectively known as 'grids' or 'cell'. Then, momentum and continuity equations were formulated for each grid together with given boundary conditions, and then repeatedly solved by using FVM (finite volume method) [8].…”

Section: Methodology Of Cfd Simulationmentioning

confidence: 99%

Examining the effects of velocity ratio of the pressurized flow to the main inlet flow on coagulants dispersion in pump diffusion mixer

Park

Kim

et al. 2011

Korean J. Chem. Eng.

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This study was conducted to evaluate the ratio of the pressurized flow to the main inlet flow, which has been considered one of the most important parameters for operating the pump diffusion mixer (PDM). Computational fluid dynamics (CFD) simulation was employed to evaluate the conventional operation rule of PDM and to propose a supplementary operating parameter and criterion. Test simulation of CFD was carried out for the 21 cases of flow ratio in a full scale PDM. The values of local velocity gradient were calculated in each case to analyze the simulation results in more detail. A wet test was conducted to verify CFD simulation results, which measures the factual coagulant dispersion distribution at a distance of 5.4 m from deflector. From results of both CFD simulation and wet test, the flow ratio was adequate as an operating parameter or criterion; also, the velocity ratio (dimensionless) of the pressurized flow to the main inlet was useful in predicting the performance of PDM. In addition, the injected coagulant could be dispersed evenly in overall cross section on the condition that the velocity ratio is at least over 20.

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“…Furthermore, rapid mixing units also impact on the dewaterability characteristics of sludge. The effect of hydraulic turbulence on turbidity removal has been assessed for rapid mixing units [8]. Furthermore, Fitra et al [9] assessed the impact of sludge floc size and water composition on dewaterability.…”

Section: Introductionmentioning

confidence: 99%

Highlights of the novel dewaterability estimation test (DET) device

Scholz

Almuktar

Clausner

et al. 2019

Environmental Technology

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Many industries, which are producing sludge in large quantities, depend on sludge dewatering technology to reduce the corresponding water content. A key design parameter for dewatering equipment is the capillary suction time (CST) test, which has, however, several scientific flaws, despite that the test is practical and easy-to-perform. The standard CST test has a few considerable drawbacks: its lack of reliability and difficulties in obtaining results for heavy sludge types. Furthermore, it is not designed for long experiments (e.g. >30 min), and has only two measurement points (its two electrodes). In comparison, the novel dewaterability estimation test (DET) test is almost as simple as the CST, but considerably more reliable, faster, flexible and informative in terms of the wealth of visual measurement data collected with modern image analysis software. The standard deviations associated with repeated measurements for the same sludge is lower for the DET than for the CST test. In contrast to the CST device, capillary suction in the DET test is linear and not radial, allowing for a straightforward interpretation of findings. The new DET device may replace the CST test in the sludge-producing industries in the future.

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Examining the effect of hydraulic turbulence in a rapid mixer on turbidity removal with CFD simulation and PIV analysis

Cited by 9 publications

References 18 publications

Numerical method and program for computing inlet flow distribution in sedimentation tanks

Numerical method and program for computing inlet flow distribution in sedimentation tanks

Examining the effects of velocity ratio of the pressurized flow to the main inlet flow on coagulants dispersion in pump diffusion mixer

Highlights of the novel dewaterability estimation test (DET) device

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