| 1 |
APPI(+)-FTICR mass spectrometry coupled to partial least squares with genetic algorithm variable selection for prediction of API gravity and CCR of crude oil and vacuum residues
Lozano DCP, Orrego-Ruiz JA, Hernandez RC, Guerrero JE, Mejia-Ospino E
Fuel, 193, 39, 2017 |
| 2 |
Effects of mechanical activation on the co-liquefaction of Xigou sub-bituminous coal from Xinjiang and Karamay petroleum vacuum residues
Sun ZQ, Ma FY, Liao J, Liu JM, Zhong M, Kong LT
Fuel Processing Technology, 161, 139, 2017 |
| 3 |
Analysis of the molecular weight distribution of vacuum residues and their molecular distillation fractions by laser desorption ionization mass spectrometry
Lozano DCP, Orrego-Ruiz JA, Barrow MP, Hernandez RC, Mejia-Ospino E
Fuel, 171, 247, 2016 |
| 4 |
Correlations between SARA fractions and physicochemical properties with H-1 NMR spectra of vacuum residues from Colombian crude oils
Molina D, Uribe UN, Murgich J
Fuel, 89(1), 185, 2010 |
| 5 |
Correlation of processability and reactivity data for residua from bitumen,, heavy oils and conventional crudes: Characterization of fractions from super-critical pentane separation as a guide to process selection
Zhao S, Sparks BD, Kotlyar LS, Chung KH
Catalysis Today, 125(3-4), 122, 2007 |
| 6 |
Metal-ion pillared clays as hydrocracking catalysts (II): effect of contact time on products from coal extracts and petroleum distillation residues
Bodman SD, McWhinnie WR, Begon V, Millan M, Suelves I, Lazaro MJ, Herod AA, Kandiyoti R
Fuel, 82(18), 2309, 2003 |
