| 91 |
Anomalous Heavy-Oil Rheological Thinning Behavior upon Addition of Nanoparticles: Departure from Einstein's Theory
Taborda EA, Franco CA, Ruiz MA, Alvarado V, Cortes FB
Chemical Engineering Communications, 204(6), 648, 2017 |
| 92 |
A new experimental and modeling strategy to determine asphaltene precipitation in crude oil
Amin JS, Nikkhah S, Zendehboudi S
Chemical Engineering Research & Design, 128, 162, 2017 |
| 93 |
Phase behavior of bitumen and n-pentane
Johnston KA, Schoeggl FF, Satyro MA, Taylor SD, Yarranton HW
Fluid Phase Equilibria, 442, 1, 2017 |
| 94 |
Inhibiting asphaltene precipitation from Iranian crude oil using various dispersants: Experimental investigation through viscometry and thermodynamic modelling
Dehaghani AHS, Badizad MH
Fluid Phase Equilibria, 442, 104, 2017 |
| 95 |
Rheological demonstration of alteration in the heavy crude oil fluid structure upon addition of nanoparticles
Taborda EA, Alvarado V, Franco CA, Cortes FB
Fuel, 189, 322, 2017 |
| 96 |
Study on the wax/asphaltene aggregation with diffusion limited aggregation model
Sun WY, Wang W, Gu YQ, Xu XX, Gong J
Fuel, 191, 106, 2017 |
| 97 |
Interfacial rheology of asphaltene emulsions in the presence of nanoemulsions based on a polyoxide surfactant and asphaltene dispersant
Oliveira PF, Santos ICVM, Vieira HVP, Fraga AK, Mansur CRE
Fuel, 193, 220, 2017 |
| 98 |
Asphaltene flocculation parameter in Brazilian crude oils and synthetic polar and nonpolar mixtures: Experimental and modeling
Santos DC, Filipakis SD, Rolemberg MP, Lima ERA, Paredes MLL
Fuel, 199, 606, 2017 |
| 99 |
Systematic evaluation of asphaltene formation damage of black oil reservoir fluid from Lake Maracaibo, Venezuela
Memon A, Borman C, Mohammadzadeh O, Garcia M, Tristancho DJR, Ratulowski J
Fuel, 206, 258, 2017 |
| 100 |
Coking propensity during hydroprocessing of vacuum residues, deasphalted oils, and asphaltenes
Prajapati R, Kohli K, Maity SK, Garg MO
Fuel, 203, 514, 2017 |
