| 1 |
Study on the use of aprotic ionic liquids as potential additives for crude oil upgrading, emulsion inhibition, and demulsification
Santos RLM, Filho EBM, Dourado RS, Santos AF, Borges GR, Dariva C, Santana CC, Franceschi E, Santos D
Fluid Phase Equilibria, 489, 8, 2019 |
| 2 |
Investigation of the viscosity and density of heavy oil/water blends at elevated temperatures and pressure; Part 1: Oil-only sample (absence of water)
Modaresghazani J, Moore RG, Mehta SA, Van Fraassen KC, Ursenbach MG, Van Dorp J, Laureshen CJ
Fuel, 227, 6, 2018 |
| 3 |
A viscosity-conversion model for thermal cracking of heavy oils
Rueda-Velasquez RI, Gray MR
Fuel, 197, 82, 2017 |
| 4 |
Investigating the Temperature Dependency of Oil and Water Relative Permeabilities for Heavy Oil Systems
Ashrafi M, Souraki Y, Torsaeter O
Transport in Porous Media, 105(3), 517, 2014 |
| 5 |
Correlation of chemical and physical properties of an Alaska heavy oil from the Ugnu formation
Li KJ, Akeredolu BA, Renehan AM, Yang Y, Batzle M, Evans RJ, Dorgan JR, Liberatore MW, Herring AM
Fuel, 103, 843, 2013 |
| 6 |
Correlating the chemical and physical properties of a set of heavy oils from around the world
Hinkle A, Shin EJ, Liberatore MW, Herring AM, Batzle M
Fuel, 87(13-14), 3065, 2008 |
| 7 |
Effects of asphaltene content on the heavy oil viscosity at different temperatures
Luo P, Gu YG
Fuel, 86(7-8), 1069, 2007 |
| 8 |
Reliable heavy oil-solvent viscosity mixing rules for viscosities up to 450 K, oil-solvent viscosity ratios up to 4 x 10(5), and any solvent proportion
Barrufet MA, Setiadarma A
Fluid Phase Equilibria, 213(1-2), 65, 2003 |
