Characterization of Multiple Hindered Settling Regimes in Aggregated Mineral Suspensions

Johnson, Mike; Peakall, Jeff; Fairweather, Michael; Biggs, Simon; Harbottle, David; Hunter, Timothy N.

doi:10.1021/acs.iecr.6b02383

Cited by 34 publications

(43 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The brucite test material used in this study is H3 Versamag (Martin Marietta Magnesia Specialties LLC, USA), a fine white precipitated powder with less than 1.2% oxide impurities . The advertised median particle size is 1.09 mm, however, a light scattering particle size distribution using a Malvern Mastersizer revealed a median diameter of 4.4 mm, reflecting the low zeta potential of aqueous magnesium hydroxide suspensions and a tendency for rapid aggregation . Soft sediments were prepared by the addition of tap water and agitation for 30 min using an overhead stirrer with an axial flow impeller.…”

Section: Methodsmentioning

confidence: 99%

“…47 The advertised median particle size is 1.09 mm, 47 however, a light scattering particle size distribution using a Malvern Mastersizer revealed a median diameter of 4.4 mm, reflecting the low zeta potential of aqueous magnesium hydroxide suspensions and a tendency for rapid aggregation. 48 Soft sediments were prepared by the addition of tap water and agitation for 30 min using an overhead stirrer with an axial flow impeller. In situ gas generation was achieved by addition of 35% w/w hydrogen peroxide (Merck Chemicals, Germany) which decomposes within the bed to form oxygen bubbles according to Eq.…”

Section: Test Materialsmentioning

confidence: 99%

See 1 more Smart Citation

Yield stress dependency on the evolution of bubble populations generated in consolidated soft sediments

et al. 2017

Self Cite

View full text Add to dashboard Cite

Retention of hydrogen bubbles within consolidated soft sediments represents an important safety consideration for the management of legacy nuclear wastes due to the potential for acute gas release. Gas retention sufficiently reduced the bulk density of intermediate yield stress (<800 Pa) sediments for the bed to become buoyant with respect to an aqueous supernatant, potentially inducing Rayleigh-Taylor instabilities. X-ray computed tomography revealed that beds of 7-234 Pa yield stress retained very similar, steady state size distributions of mature bubbles, limited to 9 mm equivalent spherical diameter, for long residence times. This implied a dominant gas release mechanism dictated by the pore to millimeter scale bubble population, not previously identified in such weak sediments and unrelated to the bubbles' buoyant force. At 1112 Pa yield stress, large bubbles of up to 20 mm diameter were observed to grow through induction of lateral cracks, facilitating gas transport to the bed periphery, thereby limiting the maximum void fraction, while nonhomogeneous gas generation promoted the formation of low density regions rich with microbubbles which similarly provide pathways for gas release.

show abstract

Section: Methodsmentioning

confidence: 99%

Section: Test Materialsmentioning

confidence: 99%

Yield stress dependency on the evolution of bubble populations generated in consolidated soft sediments

et al. 2017

Self Cite

View full text Add to dashboard Cite

show abstract

“…The reader is directed to specialized publications for discussions on terminal settling velocity which take in to account the effects of particle shape and neighbouring suspended solids. [27][28][29] In summary, conducting the preflocculation of the centrifuge feed improves the separation efficiency because: 1) of the higher flocs residence time; 2) introduction into the machine of flocs that settle faster; and, as a consequence, 3) the formation of a pool whose lower solids content improves the settling rates of flocs.…”

Section: Friction Power Lossmentioning

confidence: 99%

Impact of preflocculation on scroll decanter centrifuge separation performance

Demoz

2017

Can J Chem Eng

View full text Add to dashboard Cite

Industrial scroll decanter centrifuge (SDC) separation of the solids in fluid fine tailings (FFT) which have particles 10 mm and smaller in size require flocculant addition. Accordingly, the mechanism in the centrifuge is flocculation of the fine solid particles followed by sedimentation. Thus, feeding preflocculated material obviates the flocculation step inside the SDC resulting in improved process efficiency by reducing the power consumption and increasing the throughput capacity of each SDC. This work evaluated the separation performance of the SDC using inline static mixers to preflocculate oil sands FFT containing solids, 90 mass% of which are < 9 mm in size. The minimum G-forces required to achieve the industry benchmarks of < 1 mass% solids in the centrate water and > 97 % fines capture rate were 750 G without preflocculation and 400 G with preflocculation. Since power consumption by the SDC, as expected, was directly proportional to the G-force, the savings in power due to preflocculation amounted to 47 %. Preflocculation increased SDC throughput capacity by up to 50 %. Operating at lower G-force has the additional benefits of protecting the high-capital-cost SDC machine and reducing ambient noise levels.

show abstract

“…as is the attenuation due to the sediment, kt is the transducer constant, which depends on the system and is determined experimentally, and ks is the particle species backscatter coefficient given by (2). where a is the particle radius, s is the particle density and f is the form function (angled brackets indicate an average over the particle size distribution).…”

Section: Measurement Principlementioning

confidence: 99%

“…This legacy is due, in part, to the large cost for storage and processing of waste sludges, because of the high risk of radiological or toxicological contamination making characterization difficult or costly. For this reason, much research has been directed towards developing technologies for the remote characterization of nuclear waste for cleanup processes [2] [3]. Acoustic backscatter systems (ABS) represent such a technology, as they can be used non-intrusively to measure both particle size and concentration depending on prior system knowledge [4].…”

Section: Introductionmentioning

confidence: 99%

Concentration profiling using a novel acoustic backscatter system with single transducers pulsed at multiple frequencies

Tonge

Bux

Cowell

et al. 2017

2017 IEEE International Ultrasonics Symposium (IUS)

View full text Add to dashboard Cite

Acoustic backscatter systems offer a flexible technique to measure dispersion concentration and particle size, through inversion of the return echo voltage response of pulse-echo signals in the MHz range. This study explores the use of the ultrasound array research platform to measure the suspended particle attenuation constant using acoustic backscatter from glass species, and invert the voltage response to produce concentration profiles. The measurement principle is described and experimentally determined values for the particle attenuation constant are compared to theoretical values from literature. Transducer constants for each probe are determined allowing concentration profiles to be inverted from the voltage profiles, and the limits for determining the attenuation constant are explored.

show abstract

Characterization of Multiple Hindered Settling Regimes in Aggregated Mineral Suspensions

Cited by 34 publications

References 47 publications

Yield stress dependency on the evolution of bubble populations generated in consolidated soft sediments

Yield stress dependency on the evolution of bubble populations generated in consolidated soft sediments

Impact of preflocculation on scroll decanter centrifuge separation performance

Concentration profiling using a novel acoustic backscatter system with single transducers pulsed at multiple frequencies

Contact Info

Product

Resources

About