2014
DOI: 10.1016/j.minpro.2013.12.002
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Influence of humic acids on oil sand processing. Part I: Detection and quantification of humic acids in oil sand ores and their effect on bitumen wettability

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Cited by 15 publications
(20 citation statements)
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“…Another factor contributing to the differences in the yield stresses of slurries of ores 1 and 5 is the degree of bitumen weathering in these samples. As was shown in our previous publication, [31] the amount of humic acids per mass of bitumen in oil sand ores was significantly higher in ore 5 than in ore 1. Accordingly, bitumen in ore 5 is expected to be less hydrophobic, which leads to weaker hydrophobic forces and lower yield stresses.…”
Section: Vane Testssupporting
confidence: 83%
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“…Another factor contributing to the differences in the yield stresses of slurries of ores 1 and 5 is the degree of bitumen weathering in these samples. As was shown in our previous publication, [31] the amount of humic acids per mass of bitumen in oil sand ores was significantly higher in ore 5 than in ore 1. Accordingly, bitumen in ore 5 is expected to be less hydrophobic, which leads to weaker hydrophobic forces and lower yield stresses.…”
Section: Vane Testssupporting
confidence: 83%
“…It should also be remembered that the relative amount of humic matter per mass of bitumen is much higher in the case of ores 4 and 5, so the hydrophobicity of bitumen also varies from ore 1 to ore 5. [31] Bitumen in ore 1 can be expected to be more hydrophobic than bitumen in ore 5, and the wettability of bitumen also contributes to the trend in Figure 11. As shown by Gutierrez [35] even mild oxidation of an otherwise good quality ore drastically lowers the yield stress of a concentrated slurry prepared from the oxidized ore to a point where no slump could be measured and the slurry flowed freely.…”
Section: Effect Of Ore Quality On the Yield Stress Of Oil Sand Suspenmentioning
confidence: 99%
“…The observed extraction/leaching of humic acids into the aqueous phase at high pH is in agreement with previous studies. [52][53][54][55] The release of humic acids in more alkali conditions could account for the observed 'jump' in resonance frequency shift between pH 9.3 and pH 10.2, as a result of humic acids adsorption on bitumencoated silica sensors. It is also interesting to note that the adsorption of humic acids by illite clay was observed by discoloration of the tailings water prepared with 0.5 wt.…”
Section: Slime Coating Potential Of Kaolinite and Illite Particles Inmentioning
confidence: 99%
“…Little difference was found between the two humic acids in terms of the asphaltene mobility. Additionally, the coating of humic acids on the asphaltene surface rendered the asphaltenes more hydrophilic and made it resistant to non-aqueous solvent such as toluene during solvent extraction (Gutierrez and Pawlik, 2014).…”
Section: Co-aggregation Of Asphaltene With Humic Substances In the Ommentioning
confidence: 99%