2021
DOI: 10.1016/j.seppur.2021.119699
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A review of characterization techniques of heterocoagulation between mineral particles in mineral separation process

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Cited by 12 publications
(5 citation statements)
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“…The DLVO theory, a classic theory used to explain the interactions between particles and their aggregation/dispersion in water, has been used to understand the phenomenon of slime coating. Based on the DLVO theory, , the total energy V T D between mineral particles can be calculated as follows: V normalT normalD = V normalW + V normalE where V T D , V W , and V E are the total energy, Van der Waals energy, and electrostatic energy, respectively. However, the EDLVO theory can better explain the aggregation and dispersion behavior of mineral particles in the presence of flotation reagents. , For fluorapatite and dolomite in a NaOL solution, the EDLVO theory was used to calculate the interactions, and the total energy ( V T ED ) can be described as V normalT ED = V normalW + V normalE + V normalH where V H represents hydrophobic or hydration interaction.…”
Section: Methodsmentioning
confidence: 99%
“…The DLVO theory, a classic theory used to explain the interactions between particles and their aggregation/dispersion in water, has been used to understand the phenomenon of slime coating. Based on the DLVO theory, , the total energy V T D between mineral particles can be calculated as follows: V normalT normalD = V normalW + V normalE where V T D , V W , and V E are the total energy, Van der Waals energy, and electrostatic energy, respectively. However, the EDLVO theory can better explain the aggregation and dispersion behavior of mineral particles in the presence of flotation reagents. , For fluorapatite and dolomite in a NaOL solution, the EDLVO theory was used to calculate the interactions, and the total energy ( V T ED ) can be described as V normalT ED = V normalW + V normalE + V normalH where V H represents hydrophobic or hydration interaction.…”
Section: Methodsmentioning
confidence: 99%
“…Figure 5 shows the interaction mechanism of kaolinite with chalcopyrite. The heterocoagulation phenomenon has been widely studied in the literature, as stated by Yepsen et al [32] and Hu et al [33].…”
Section: Flotation Of Chalcopyrite Using the Treated Waste Brinementioning
confidence: 99%
“…According to the classical DLVO theory, whether a sol can exist stably under certain conditions depends on the potential energy of the interaction between the colloidal particles. The total potential energy equals the sum of the van der Waals attraction potential energy and the electrostatic repulsion potential energy caused by the electric double layer (Hu et al, 2021). Based on this theory, the total potential energy of the two slurry systems can be calculated, and the anti-agglomeration ability between the particles of the two minerals in the flotation process can be predicted.…”
Section: Dlvo Theoretical Analysismentioning
confidence: 99%