| 1 - 12 |
The concept of asphaltenes revisited
Speight JG, Long RB |
| 7 - 7 |
Editorial
Speight J |
| 13 - 39 |
The asphaltene and wax deposition envelopes
Leontaritis KJ |
| 41 - 54 |
Control of coke formation from hydrocracked Athabasca bitumen
Nowlan VJ, Srinivasan NS |
| 55 - 74 |
Microscopic investigation of the onset of asphaltene precipitation
Buckley JS |
| 75 - 100 |
Peptization and coagulation of asphaltenes in apolar media using oil-soluble polymers
Chang CL, Fogler HS |
| 101 - 115 |
Electrical conductivity of asphaltenes in organic solvents
Fotland P, Anfindsen H |
| 117 - 137 |
The development of an onset-of-precipitation detection technique using heat transfer analysis
Clarke PF, Pruden BB |
| 139 - 162 |
The effect of asphalt composition on the formation of asphaltenes and their contribution to asphalt viscosity
Lin MS, Chaffin JM, Liu M, Glover CJ, Davison RR, Bullin JA |
| 163 - 178 |
Preliminary phase diagrams for bitumen heavy oils and related mixtures
Cartlidge CR, DukhedinLalla L, Rahimi P, Shaw JM |
| 179 - 201 |
Characterization and multiphase equilibrium prediction of crude oil heavy components
Chang SH, Grigg RB, Huang TC |
| 203 - 242 |
The colloidal structure of crude oils and suspensions of asphaltenes and resins
Bardon C, Barre L, Espinat D, Guille V, Li MH, Lambard J, Ravey JC, Rosenberg E, Zemb T |
| 243 - 260 |
Flocculation of asphaltenes in heavy oil at elevated temperatures
Storm DA, Barresi RJ, Sheu EY |
| 261 - 287 |
Thermodynamics of asphaltene precipitation and dissolution investigation of temperature and solvent effects
Andersen SI, Stenby EH |
| 289 - 312 |
Two-dimensional solubility parameter mapping of heavy oils
Wiehe IA |
| 313 - 325 |
Precipitation of asphaltenes at high pressures; Experimental technique and results
Fotland P |
