Effect of bitumen composition and process water chemistry on model oilsands separation using a warm slurry extraction process simulation |
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| Authors: | S. Wik S. Ng Z. Li L.S. Kotlyar |
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| Affiliation: | a Syncrude Canada Ltd., Edmonton Research Center, 9421-17 Avenue, Edmonton, AB, Canada T6N 1H4
b National Research Council of Canada, Institute for Chemical Process and Environmental Technology, Montreal Road Campus, Ottawa, ON, Canada K1A 0R6 |
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| Abstract: | Variability in ore composition and process parameters is known to affect bitumen recovery from natural oilsands. In this work, we extend our earlier studies with model oilsands (MOS) systems to investigate the effects caused by the presence of asphaltene and divalent cations on the interaction between bitumen and silica particles. The absence of both asphaltene and fines was found to have significant effects on bitumen recovery. With a typical oilsands, addition of small amounts of caustic improves recovery but overdosing causes a drastic loss of yield through bitumen emulsification. Without asphaltene and in the presence of fines, the typical drop in bitumen recovery above pH 10 did not occur, indicating that the source of emulsifying agents had been eliminated. With deasphalted bitumen, recovery in the absence of silica fines was very poor at all NaOH dosages. The strong, negative effect of divalent cations on “normal” bitumen recovery was almost completely eliminated when asphaltene was absent. |
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| Keywords: | ATB, atmospheric topped bottoms BEU, batch extraction unit DI, deionized water MOS, model oilsands (artificial oilsands prepared from synthetic components) MTOS, modified typical oilsands (TOS with compositional differences in oilsands and process water components) OWS, oil, water and solids PSD, particle size distribution TOS, typical oilsands (10% (w/w) bitumen, 5% (w/w) water, and 85% (w/w) solids, including 25% fines) separated with deionized process water |
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