Revisiting Coiled Flocculator Performance for Particle Aggregation

Carissimi, Élvis; Sanagiotto, Daniela Guzzon; Schettini, Edith Beatriz Camaño; Rubio, J.

doi:10.2175/106143017x14902968254935

Cited by 7 publications

(1 citation statement)

References 40 publications

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“…Flocculation is also a standard method used to treat coal slime water in coal preparation plants (Carissimi, Sanagiotto, Camano Schettini, & Rubio, ; Duzyol, ; Yang, Liu, Zhang, Wen, & Guo, ). Cationic flocculants used alone or cationic electrolytes combined with anionic flocculants are both valid approaches due to the negative surface charge of particles in coal slime water.…”

Section: Introductionmentioning

confidence: 99%

Dynamic floc characteristics of flocculated coal slime water under different agent conditions using particle vision and measurement

Lin

Wang

Wang³

et al. 2019

Water Environment Research

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To determine the effect of different agents on the dynamic characteristics of floc structures, ferric chloride (FC) and anionic polyacrylamide (APAM) were dosed as coagulant and flocculant, respectively, to flocculate the coal slime water. Particle vision and measurement (PVM) was employed to monitor the flocculation process in situ. The results showed that the floc could grow to a size of approximately 1 mm only under conditions of 100 mg/L FC and 50 mg/L APAM. The coagulant dosage influenced either the aggregation of the slime particles or the conformation of the flocculant. If the coagulants were insufficient or excessive, the flocculant conformations were stretch chains and resembled unable to bridging the slime particles as shown in the captured images. The variation of the relative backscatter index (RBI) during the process indicated that the required residence time for flocculation was proportional to the ratio of particle size at the end of flocculation to that at the beginning of the process. It can be concluded that PVM is an effective instrument that can obtain useful dynamic information of the flocculation process by combining real-time images and the RBI. • Practitioner Points• The coagulant concentration affects the conformation of the flocculant. • The required retention time is depended on the max size that flocs can reach. • PVM is a powerful instrument for studying dynamic flocculation process in situ. • Key wordsanionic polyacrylamide; coal slime water; dynamic process; flocculation; particle vision and measurement

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Section: Introductionmentioning

confidence: 99%

Dynamic floc characteristics of flocculated coal slime water under different agent conditions using particle vision and measurement

Lin

Wang

Wang³

et al. 2019

Water Environment Research

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Angular segregation of fibres in pipe flow: floc formation and utilization for length-based fibre separation

Redlinger-Pohn

2020

Cellulose

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Cellulose fibres are prone to flocculate and form aggregates that are deformable by the hydrodynamic stress. In this work I document for coiled pipe flow, known to have secondary motion in the pipe cross-sectional plane, an accumulation of fibre flocs and fibre aggregates at the outer bend. That is the segregation into a section in the pipe cross-section and hence presents a case of angular segregation. The segregation was studied for non-coherent crowded fibre flocs. For that, segregation benefited from fibre concentration and suffered from increased hydrodynamic stress expressed by increasing Reynolds number. Based on the observed segregation of fibres a flow splitter was designed that separated the flow at 1/3 of the tube diameter measured from the inner bend. The outer bend suspension length-weighted fibre length was found to increase. For the best case in this work, the difference between outer and inner bend relative to the feed fibre length was 22%. As for radial and axial segregation, which are known, also angular segregation is fibre-length sensitive. As such it can be exploited for length fractionation of networking and aggregating elongated particles, for example fibres.

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Mechanism of rapid settling algal flocs formation in a novel fluidized bed flocculator

Chen,

Li,

Zhang

et al. 2024

Algal Research

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Revisiting Coiled Flocculator Performance for Particle Aggregation

Cited by 7 publications

References 40 publications

Dynamic floc characteristics of flocculated coal slime water under different agent conditions using particle vision and measurement

Dynamic floc characteristics of flocculated coal slime water under different agent conditions using particle vision and measurement

Angular segregation of fibres in pipe flow: floc formation and utilization for length-based fibre separation

Mechanism of rapid settling algal flocs formation in a novel fluidized bed flocculator

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