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

Abstract: 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 aggre… Show more

“…Note that PAC was added at the time point of 4 min. RBI can qualitatively monitor the changes of particle size and concentration in a suspension in real time . It is clear from Figure that for coal particles (aggregates) in NB water without the addition of PAC, their value of RBI remained stable during the entire 13 min of testing (mixing) period, suggesting that the coal aggregates induced by NBs were stable enough to sustain agitation (600 rpm).…”

“…RBI can qualitatively monitor the changes of particle size and concentration in a suspension in real time. 26 It is clear from Figure 7 that for coal particles (aggregates) in NB water without the addition of PAC, their value of RBI remained stable during the entire 13 min of testing (mixing) period, suggesting that the coal aggregates induced by NBs were stable enough to sustain agitation (600 rpm). By contrast, in the NB water + PAC group, a sharp decline in the value of RBI from approximately 75−60 was observed in the first 2 min after PAC addition, after which the value of RBI decreased gradually and linearly to approximately 50 at the end of the experiment.…”

Effective Separation of High-Ash Fine Coal Using Water Containing Positively Charged Nanobubbles and Polyaluminum Chloride

“…Note that PAC was added at the time point of 4 min. RBI can qualitatively monitor the changes of particle size and concentration in a suspension in real time . It is clear from Figure that for coal particles (aggregates) in NB water without the addition of PAC, their value of RBI remained stable during the entire 13 min of testing (mixing) period, suggesting that the coal aggregates induced by NBs were stable enough to sustain agitation (600 rpm).…”

“…RBI can qualitatively monitor the changes of particle size and concentration in a suspension in real time. 26 It is clear from Figure 7 that for coal particles (aggregates) in NB water without the addition of PAC, their value of RBI remained stable during the entire 13 min of testing (mixing) period, suggesting that the coal aggregates induced by NBs were stable enough to sustain agitation (600 rpm). By contrast, in the NB water + PAC group, a sharp decline in the value of RBI from approximately 75−60 was observed in the first 2 min after PAC addition, after which the value of RBI decreased gradually and linearly to approximately 50 at the end of the experiment.…”

Effective Separation of High-Ash Fine Coal Using Water Containing Positively Charged Nanobubbles and Polyaluminum Chloride

Effect of ultrasonic pretreatment on the flocs characteristics in the flocculation filtration process of coal slurry water

Application of in-situ micro laser transmission on real-time monitoring of flocculation process