| 1 - 1 |
International conference on petroleum phase behavior and fouling
Wiehe IA |
| 2 - 5 |
Mechanism of reboiler fouling during reforming
Brons G, Wiehe IA |
| 6 - 10 |
Asphaltenes: Structural characterization, self-association, and stability behavior
Leon O, Rogel E, Espidel J, Torres G |
| 11 - 13 |
Mitigation of fouling in bitumen furnaces by pigging
Parker RJ, McFarlane RA |
| 14 - 18 |
Asphaltene precipitation from live oils: An experimental investigation of onset conditions and reversibility
Hammami A, Phelps CH, Monger-McClure T, Little TM |
| 19 - 24 |
Representation of hydrate phase equilibria in aqueous solutions of methanol and electrolytes using an equation of state
Zuo JY, Zhang D, Ng HJ |
| 25 - 30 |
Classification of asphaltenes via fractionation and the effect of heteroatom content on dissolution kinetics
Kaminski TJ, Fogler HS, Wolf N, Wattana P, Mairal A |
| 31 - 37 |
Emulsion resolution in electrostatic processes
Sams GW, Zaouk M |
| 38 - 42 |
The critical micelle concentration of asphaltenes as measured by calorimetry
Andersen SI, Christensen SD |
| 43 - 51 |
Effect of precipitated wax on viscosity - A model for predicting non-Newtonian viscosity of crude oils
Pedersen KS, Ronningsen HP |
| 52 - 55 |
Changes in asphaltene stability during hydrotreating
Bartholdy J, Andersen SI |
| 56 - 59 |
The oil compatibility model and crude oil incompatibility
Wiehe IA, Kennedy RJ |
| 60 - 63 |
Application of the oil compatibility model to refinery streams
Wiehe IA, Kennedy RJ |
| 64 - 69 |
Fouling of a sweet crude oil under inert and oxygenated conditions
Watkinson AP, Navaneetha-Sundaram B, Posarac D |
| 70 - 75 |
Extraction of petroleum pitch with supercritical toluene: Experiment and prediction
Zhuang MS, Thies MC |
| 76 - 82 |
Liquefaction reactivity of methylated Illinois No. 6 coal
Sasaki M, Kotanigawa T, Yoshida T |
| 83 - 88 |
Carbon gasification of kraft black liquor solids in the presence of TiO2 in a fluidized bed
Zeng L, van Heiningen ARP |
| 89 - 94 |
Supercritical fluid extraction of BAL 150 crude oil asphaltenes
Guiliano M, Boukir A, Doumenq P, Mille G, Crampon C, Badens E, Charbit G |
| 95 - 103 |
A comparison of stochastic separated flow models for particle dispersion in turbulent flows
Hennick EA, Lightstone MF |
| 104 - 111 |
Effect of water vapor on reaction rates of limestone-catalyzed NH3 oxidation and reduction of N2O under fluidized bed combustion conditions
Shimizu T, Hasegawa M, Inagaki M |
| 112 - 116 |
African pear seed oil: Potential alternative source to diesel oil
Ajiwe VIE, Obika AE |
| 117 - 126 |
Maceral effects in the determination of proximate volatiles in coals
Borrego AG, Marban G, Alonso MJG, Alvarez D, Menendez R |
| 127 - 130 |
Gasification of biomass chars in air - Effect of heat treatment temperature
Devi TG, Kannan MP |
| 131 - 137 |
Influence of temperature and composition on the linear viscoelastic properties of synthetic binders
Martinez-Boza F, Partal P, Conde B, Gallegos C |
| 138 - 141 |
Oxidation of coal char/CaS mixture at high temperature
Ozawa S, Morita Y, Huang L, Matsuda H, Hasatani M |
| 142 - 149 |
Porosity development during CO2 and steam activation in a fluidized bed reactor
Linares-Solano A, de Lecea CSM, Cazorla-Amoros D, Martin-Gullon I |
| 150 - 159 |
Ash formation mechanisms during of combustion in reducing conditions
McLennan AR, Bryant GW, Stanmore BR, Wall TF |
| 160 - 163 |
Rapid bulk fractionation of maltenes into saturates, aromatics, and resins by flash chromatography
Raki L, Masson JF, Collins P |
| 164 - 168 |
Polyaromatic environmental impact in coal-tire blend atmospheric fluidized bed (AFB) combustion
Mastral AM, Callen MS, Garcia T |
| 169 - 178 |
Bed agglomeration characteristics during fluidized bed combustion of biomass fuels
Ohman M, Nordin A, Skrifvars BJ, Backman R, Hupa M |
| 179 - 183 |
EPR and spectroscopic studies of S-methyl-N-salicylidenehydrazinecarbothioatophenanthroline-oxovanadium (IV) as model compound for vanadium bound to nitrogen and sulfur heteroatoms
Hwang JS, Al-Turabi MOH, El-Sayed L, Al-Gwidi HAM |
| 184 - 189 |
Analysis of nitrogen-containing species during pyrolysis of coal at two different heating rates
Kidena K, Hirose Y, Aibara T, Murata S, Nomura M |
| 190 - 196 |
Coal dissolution by heat treatments in N-methyl-2-pyrrolidinone, 1,4,5,8,9,10-hexahydroanthracene, and their mixed solvents: A large synergistic effect of the mixed solvents
Li CQ, Ashida S, Iino M, Takanohashi T |
| 197 - 201 |
Enzymatic hydrogen production: Conversion of renewable resources for energy production
Woodward J, Cordray KA, Edmonston RJ, Blanco-Rivera M, Mattingly SM, Evans BR |
| 202 - 211 |
Thermochemical CO2 gasification of coal using a reactive coal-In2O3 system
Kodama T, Aoki A, Ohtake H, Funatoh A, Shimizu T, Kitayama Y |
| 212 - 216 |
Intra- and inter-unit variation in fly ash petrography and mercury adsorption: Examples from a western Kentucky power station
Hower JC, Finkelman RB, Rathbone RF, Goodman J |
| 217 - 223 |
Naphthenic acids in crude oils characterized by mass spectrometry
Hsu CS, Dechert GJ, Robbins WK, Fukuda EK |
| 224 - 226 |
Mercury capture by distinct fly ash carbon forms
Hower JC, Maroto-Valer MM, Taulbee DN, Sakulpitakphon T |
| 227 - 233 |
Experimental options for determining the temperature for the onset of sintering of coal ash
Al-Otoom AY, Bryant GW, Elliott LK, Skrifvars BJ, Hupa M, Wall TF |
