| 1 |
Adsorption of naphthenic acids from oil sand process-affected water with water-insoluble poly(beta-cyclodextrin-citric acid)
Liang H, Zou CJ
Canadian Journal of Chemical Engineering, 97(6), 1894, 2019 |
| 2 |
Co-pyrolysis of oil sand bitumen with lignocellulosic biomass under hydrothermal conditions
Liu ZY, Li YH, Yu FH, Zhu J, Xu L
Chemical Engineering Science, 199, 417, 2019 |
| 3 |
Distribution and chemical structure characteristic of the fast thermal-cracking products of Buton oil sand bitumen by Py-GC/TOF-MS and a fluidized bed reactor
Hao JH, Zong PJ, Tian YY, Zhang JH, Qiao YY
Energy Conversion and Management, 183, 485, 2019 |
| 4 |
Modeling the molecular composition of vacuum residue from oil sand bitumen
Alvarez-Majmutov A, Gieleciak R, Chen JW
Fuel, 241, 744, 2019 |
| 5 |
Gas generation potential and processes of Athabasca oil sand bitumen from gold tube pyrolysis experiments
Xu X, Huang HP, Zhang SC, Hu SY
Fuel, 239, 804, 2019 |
| 6 |
Process modelling and simulation of bitumen mining and recovery from oil sands
Suvarna M, Divakaran M, Nduagu EI
Minerals Engineering, 134, 65, 2019 |
| 7 |
Upgrading oil sand bitumen under superheated steam over ceria-based nanocomposite catalysts
Ajumobi OO, Muraza O, Kondoh H, Hasegawa N, Nakasaka Y, Yoshikawa T, Al Amer AM, Masuda T
Applied Energy, 218, 1, 2018 |
| 8 |
Polyacrylamides revisited: flocculation of kaolin suspensions and mature fine tailings
Strandman S, Vachon R, Dini M, Giasson S, Zhu XX
Canadian Journal of Chemical Engineering, 96(1), 20, 2018 |
| 9 |
Understanding the pyrolysis progress physical characteristics of Indonesian oil sands by visual experimental investigation
Zhang ZS, Ma XL, Li H, Li XG, Gao X
Fuel, 216, 29, 2018 |
| 10 |
Oil sand pyrolysis: Evolution of volatiles and contributions from mineral, bitumen, maltene, and SARA fractions
Nie F, He DM, Guan J, Li XQ, Hong Y, Wang LF, Zheng HA, Zhang QM
Fuel, 224, 726, 2018 |
