Characterization of Colloidal Solids from Athabasca Fine Tails

L. S. Kotlyar; Y. Deslandes; B. D. Sparks; H. Kodama; R. Schutte

doi:10.1346/CCMN.1993.0410309

Abstract

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During processing of Athabasca oil sands, the finely divided solids form an aqueous suspension, which ultimately stabilizes as a gel-like structure retaining up to 90% of the process water. This gelling phenomenon is believed to be caused by colloidal inorganic components. Kaolinite and mica are the main crystalline minerals in these colloidal solids; swelling clays are present in only trace amounts. Non-crystalline components are more concentrated in the finer fraction of the solids. Although the surfaces of the colloidal solids are virtually free of Fe, some contamination with polar organic matter is observed.

References

Bhatia, Q. S., Pan, D. H. and Koberstein, J. T., 1988 Preferential surface adsorption in miscible blends of polystyrene and polyvinylmethylether Macromolecules 21 2166 10.1021/ma00185a049.CrossRef Google Scholar

Camp, F. W., 1977 Processing Athabasca tar sand tailings disposal Proc. Symp. on Tar Sands, 26th Can. Chem. Eng. Conf., Toronto, Paper 9a .CrossRef Google Scholar

Kodama, H., Jaakkimainen, M., van Olphen, H. and Veniale, F., 1982 A comparative study of selective chemical dissolution methods for separating non-crystalline components produced by grinding of silicates Proc. Int. Clay Conf., Bologna, Pavia, 1981 Amsterdam Elsevier 399 – 410.Google Scholar

Kodama, H., Kotlyar, L. S. and Ripmeester, J. A., 1989 Quantification of crystalline and non-crystalline material in ground kaolinite by X-ray powder diffraction, infrared, solid-state nuclear magnetic resonance and chemical dissolution analysis Clays & Clay Minerals 4 364 – 370 10.1346/CCMN.1989.0370410.CrossRef Google Scholar

Kotlyar, L. S., Majid, A. and Sparks, B. D., 1991 A study of factors affecting the stability of tailings sludge produced by the hot water bitumen extraction process Alberta, Canada Petroleum Society of CIM and AOSTRA, Banff 91 – 117.Google Scholar

Kotlyar, L. S., Lynds, M. M., Sparks, B. D., Schutte, R. and Woods, J. R., 1992 Colloidal solids from sludge: Effect of particle size on gel forming propensity in distilled and pond water Sludge Fundamentals Consortium Internal NRC Report No. EC-1243-92S, Ottawa, Ontario, Canada .Google Scholar

Maciel, G. and Sindorf, D., 1980 Silicon-29 nuclear magnetic resonance study of the surface silica gel by cross polarization and magic angle spinning J. Am. Chem. Soc. 102 7606 07 10.1021/ja00545a056.CrossRef Google Scholar

Muilenberg, G. E., 1979 Handbook of X-ray Photoelectron Spectroscopy Eden Prairie, Minnesota Perkin-Elmer Corporation.Google Scholar

Ripmeester, J. A. Kotlyar, L. S. and Sparks, B. D., 1992 ²H NMR and the sol-gel transition in suspensions of colloidal clays Colloids and Surfaces .CrossRef Google Scholar

Crossref Citations

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Kotlyar, Luba S. Sparks, Bryan D. Woods, John Capes, C.Edward and Schutte, Robert 1995. Biwetted ultrafine solids and structure formation in oil sands fine tailings. Fuel, Vol. 74, Issue. 8, p. 1146.

Kotlyar, L.S. Sparks, B.D. and Schutte, R. 1995. Role of bicarbonate ions in the stability of ultra‐fines suspensions. Journal of Environmental Science and Health . Part A: Environmental Science and Engineering and Toxicology, Vol. 30, Issue. 6, p. 1277.

Kotylar, L. S. Sparks, B. D. and Schutte, R. 1996. Effect of Salt on the Flocculation Behavior of Nano Particles in Oil Sands Fine Tailings. Clays and Clay Minerals, Vol. 44, Issue. 1, p. 121.

Kotlyar, L.S. Sparks, B.D. Woods, J.R. Raymond, S. Le Page, Y. and Shelfantook, W. 1998. DISTRIBUTION AND TYPES OF SOLIDS ASSOCIATED WITH BITUMEN. Petroleum Science and Technology, Vol. 16, Issue. 1-2, p. 1.

Kotlyar, L. S. Sparks, B. D. LePage, Y. and Woods, J. R. 1998. Effect of particle size on the flocculation behaviour of ultra-fine clays in salt solutions. Clay Minerals, Vol. 33, Issue. 1, p. 103.

Eisenlohr, Laurent Meteva, Krassimira Gabrovšek, Franci and Dreybrodt, Wolfgang 1999. The inhibiting action of intrinsic impurities in natural calcium carbonate minerals to their dissolution kinetics in aqueous H2O–CO2 solutions. Geochimica et Cosmochimica Acta, Vol. 63, Issue. 7-8, p. 989.

Kotlyar, L. S. Sparks, B. D. Woods, J. R. and Chung, K. H. 1999. Solids Associated with the Asphaltene Fraction of Oil Sands Bitumen. Energy & Fuels, Vol. 13, Issue. 2, p. 346.

Cowles, Roger J.H. 1999. PARTICLE CHARACTERIZATION FOR OIL SAND PROCESSING 1: PARTICLE SIZE MEASUREMENTS USING A DISC CENTRIFUGE.. Petroleum Science and Technology, Vol. 17, Issue. 3-4, p. 429.

Sworska, A Laskowski, J.S and Cymerman, G 2000. Flocculation of the Syncrude fine tailings. International Journal of Mineral Processing, Vol. 60, Issue. 2, p. 143.

Bensebaa, Farid Kotlyar, Luba S. Sparks, Bryan D. and Chung, Keng H. 2000. Organic coated solids in athabasca bitumen: Characterization and process implications. The Canadian Journal of Chemical Engineering, Vol. 78, Issue. 4, p. 610.

Darcovich, K. Toll, F.N. and Kotlyar, L.S. 2003. 2001. A Clay Odyssey. p. 247.

Sparks, B.D Kotlyar, L.S O'Carroll, J.B and Chung, K.H 2003. Athabasca oil sands: effect of organic coated solids on bitumen recovery and quality. Journal of Petroleum Science and Engineering, Vol. 39, Issue. 3-4, p. 417.

Sztukowski, Danuta M. and Yarranton, Harvey W. 2004. Characterization and Interfacial Behavior of Oil Sands Solids Implicated in Emulsion Stability. Journal of Dispersion Science and Technology, Vol. 25, Issue. 3, p. 299.

Romanova, Uliana G. Yarranton, Harvey W. Schramm, Laurier L. and Shelfantook, William E. 2004. Investigation of Oil Sands Froth Treatment. The Canadian Journal of Chemical Engineering, Vol. 82, Issue. 4, p. 710.

Sztukowski, Danuta M. and Yarranton, Harvey W. 2005. Oilfield solids and water-in-oil emulsion stability. Journal of Colloid and Interface Science, Vol. 285, Issue. 2, p. 821.

Kaminsky, Heather A. W. Etsell, Thomas H. Ivey, Douglas G. and Omotoso, Oladipo 2009. Distribution of clay minerals in the process streams produced by the extraction of bitumen from Athabasca oil sands. The Canadian Journal of Chemical Engineering, Vol. 87, Issue. 1, p. 85.

Ren, Sili Dang-Vu, Trong Zhao, Hongying Long, Jun Xu, Zhenghe and Masliyah, Jacob 2009. Effect of Weathering on Surface Characteristics of Solids and Bitumen from Oil Sands. Energy & Fuels, Vol. 23, Issue. 1, p. 334.

Dongbao, Fu Woods, John R. Kung, Judy Kingston, David M. Kotlyar, Luba S. Sparks, Bryan D. Mercier, Patrick H. J. McCracken, Thomas and Ng, Samson 2010. Residual Organic Matter Associated with Toluene-Extracted Oil Sands Solids and Its Potential Role in Bitumen Recovery via Adsorption onto Clay Minerals. Energy & Fuels, Vol. 24, Issue. 4, p. 2249.

Wang, Xiaoyan (Tara) Feng, Xianhua Xu, Zhenghe and Masliyah, Jacob H. 2010. Polymer aids for settling and filtration of oil sands tailings. The Canadian Journal of Chemical Engineering, Vol. 88, Issue. 3, p. 403.

Mercier, P. H. J. Ng, S. Moran, K. Sparks, B. D. Kingston, D. Kotlyar, L. S. Kung, J. Woods, J. Patarachao, B. and McCracken, T. 2012. Colloidal Clay Gelation: Relevance to Current Oil Sands Operations. Petroleum Science and Technology, Vol. 30, Issue. 9, p. 915.

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Article contents

Characterization of Colloidal Solids from Athabasca Fine Tails

Abstract

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References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Characterization of Colloidal Solids from Athabasca Fine Tails

Abstract

Keywords

Footnotes

References

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