| 625 - 625 |
Special issue on oil sands
Masliyah JH |
| 626 - 627 |
Oil sands extraction research needs and opportunities
Lipsett MG |
| 628 - 654 |
Understanding water-based bitumen extraction from athabasca oil sands
Masliyah J, Zhou ZJ, Xu ZH, Czarnecki J, Hamza H |
| 655 - 666 |
Interaction between bitumen and fines in oil sands extraction system: Implication to bitumen recovery
Liu JJ, Xu ZH, Masliyah J |
| 667 - 677 |
Fines/water interactions and consequences of the presence of degraded illite on oil sands extractability
Wallace D, Tipman R, Komishke B, Wallwork V, Perkins E |
| 678 - 686 |
Separation and characterisation of problematic solids from athabasca oil sands and waste unit samples
Tu Y, Li ZF, Pleizier G, Ng S, Chung KH |
| 687 - 695 |
Processibility of athabasca oil sand using a laboratory hydrotransport extraction system (LHES)
Wallwork V, Xu ZH, Masliyah J |
| 696 - 703 |
Assessment of bitumen recovery from the athabasca oil sands using a laboratory Denver flotation cell
Zhou Z, Kasongo T, Xu Z, Masliyah J |
| 704 - 709 |
A perspective on the selection of froth treatment processes
Shelfantook WE |
| 710 - 721 |
Investigation of oil sands froth treatment
Romanova UG, Yarranton HW, Schramm LL, Shelfantook WE |
| 722 - 734 |
Effects of sand fraction on toluene-diluted heavy oil in water emulsions in turbulent flow
Angle CW |
| 735 - 742 |
Factors governing friction losses in self-lubricated transport of bitumen froth: 1. Water release
Sanders RS, Ko TW, Bai RY, Joseph DD |
| 743 - 751 |
A bench-scale study of conditioning behaviour in oil sands slurries
Friesen WI, Dabros T, Kwong T |
| 752 - 762 |
A new device to determine bitumen extraction from oil sands
Luthra M, Lopetinsky RJG, Sanders RS, Nandakumar K, Masliyah JH |
| 763 - 775 |
Monte Carlo simulation of coalescence processes in oil sands slurries
Friesen WI, Dabros T |
| 776 - 781 |
Analysis of solvent-diluted bitumen from oil sands froth treatment using NIR spectroscopy
Long YC, Dabros T, Hamza H |
| 782 - 793 |
A two level fractional factorial design to test the effect of oil sands composition and process water chemistry on bitumen recovery from model systems
Fong N, Ng S, Chung KH, Tu Y, Li ZF, Sparks BD, Kotlyar LS |
| 794 - 800 |
Rate of bitumen film transfer from a quartz surface to an air bubble as observed by optical microscopy
Lelinski D, Drelich J, Miller JD, Hupka J |
| 801 - 806 |
Effect of temperature on the stability of froth formed in the recycle process water of oil sands extraction
Choung J, Walker J, Xu ZH, Masliyah J |
| 807 - 812 |
Adhesion of bitumen to a metal surface in a flowing oil sands slurry
Xu YM, Dabros T, Friesen WI, Maciejewski WB, Czarnecki J |
| 813 - 820 |
Determining bitumen viscosity through drop shape recovery
Moran K, Yeung A |
| 821 - 828 |
Langmuir and Langmuir-Blodgett asphaltene films at heptane-water interface
Lawrence S, Zhang LY, Xu ZH, Masliyah J |
| 829 - 835 |
Breaking water-in-bitumen emulsions using polyoxyalkylated DETA demulsifier
Xu YM, Wu JY, Dabros T, Hamza H, Wang SY, Bidal M, Venter J, Tran T |
| 836 - 839 |
A novel approach for resolving reverse emulsions in SAGD production systems
Bosch R, Axcell E, Little V, Cleary R, Wang SY, Gabel R, Moreland B |
| 840 - 845 |
The conductivity and dielectric behavior of solutions of bitumen in toluene
Chow RS, Tse DL, Takamura K |
| 846 - 849 |
Hydrogen and oxygen bubble attachment to a bitumen drop
Gu GX, Sanders RS, Nandakumar K, Xu ZH, Masliyah JH |
| 850 - 857 |
Performance of sand slurry pipelines in the oil sands industry
Sanders RS, Schaan J, Hughes R, Shook C |
| 858 - 864 |
Bubble size distributions for dispersed air - Water flows in a 100 mm horizontal pipeline
Sanders RS, Razzaque MM, Schaan J, Nandakumar K, Masliyah JH, Afacan A, Liu SJ |
| COVER3 - COVER3 |
The many "faces" of love
Tamir A |
