| 947 - 952 |
Comparisons of the validity of different simplified NH3-oxidation mechanisms for combustion of biomass
Norstrom T, Kilpinen P, Brink A, Vakkilainen E, Hupa M |
| 953 - 962 |
Numerical simulation of jet fuel degradation in flow reactors
Goel P, Boehman AL |
| 963 - 972 |
The effect of chlorine and sulfur on the composition of ash deposits in a fluidized bed combustion system
Liu KL, Xie W, Li D, Pan WP, Riley JT, Riga A |
| 973 - 979 |
Influence of periodically changing CO2 partial pressure on sulfur capture and free lime content of residues in PFBC
Qiu KR, Steenari BM |
| 980 - 985 |
Structural change of petroleum asphaltenes and resins by hydrodemetallization
Seki H, Kumata F |
| 986 - 993 |
Case study of the emissions from a heavy-oil-fueled Hungarian power plant
Osan J, Torok S, Fekete J, Rindby A |
| 994 - 1001 |
Measurement of the sintering kinetics of coal ash
Al-Otoom AY, Elliott LK, Wall TF, Moghtaderi B |
| 1002 - 1008 |
Study of silica-immobilized sulfur model compounds as calibrants for the AP-TPR study of oxidized coal samples
Van Aelst J, Yperman J, Franco DV, Van Poucke LC, Buchanan AC, Britt PF |
| 1009 - 1020 |
Size exclusion chromatography of soots and coal-derived materials with 1-methyl-2-pyrrolidinone as eluent: Observations on high molecular mass material
Herod AA, Lazaro MJ, Suelves I, Dubau C, Richaud R, Shearman J, Card J, Jones AR, Domin M, Kandiyoti R |
| 1021 - 1027 |
Agglomeration and fouling in three industrial petroleum coke-fired CFBC boilers due to carbonation and sulfation
Anthony EJ, Talbot RE, Jia L, Granatstein DL |
| 1028 - 1031 |
Estimation of bromine number of petroleum distillates by NMR spectroscopy
Bansal V, Sarpal AS, Kapur GS, Sharma VK |
| 1032 - 1037 |
Kinetic modeling of naphtha catalytic reforming reactions
Ancheyta-Juarez J, Villafuerte-Macias E |
| 1038 - 1042 |
Aggregation and role of ion-exchanged nickel species during pyrolysis of brown coal: Influence of extent of metal loading
Shirai M, Arai M, Murakami K |
| 1043 - 1048 |
Crude oil wax crystallization. The effect of heavy n-paraffins and flocculated asphaltenes
Garcia MD |
| 1049 - 1058 |
An attempt to correlate conversions in pyrolysis and gasification with FT-IR spectra of coals
Zhuo Y, Lemaignen L, Chatzakis IN, Reed GP, Dugwell DR, Kandiyoti R |
| 1059 - 1071 |
Role of polar compounds as source of hydrocarbons and reactive medium during the artificial maturation of Mahakam coal
Michels R, Burkle V, Mansuy L, Langlois E, Ruau O, Landais P |
| 1072 - 1082 |
Production of C-4 hydrocarbons from modified Fischer-Tropsch synthesis over Co-Ni-ZrO2/sulfated-ZrO2 hybrid catalysts
Idem RO, Katikaneni SPR, Sethuraman R, Bakhshi NN |
| 1083 - 1093 |
Characterization of char from pyrolysis of chlorogenic acid
Sharma RK, Hajaligol MR, Smith PAM, Wooten JB, Baliga V |
| 1094 - 1102 |
Modeling nitrogen evolution during coal pyrolysis based on a global free-radical mechanism
Perry ST, Fletcher TH, Solum MS, Pugmire RJ |
| 1103 - 1107 |
Surfactants as hydrate promoters?
Karaaslan U, Parlaktuna M |
| 1108 - 1114 |
Carbothermal reactions of quartz and kaolinite with coal char
Wang J, Ishida R, Takarada T |
| 1115 - 1118 |
Ionomers and the structure of coal
Painter PC, Opaprakasit P, Scaroni A |
| 1119 - 1120 |
Effect of calcium catalyst on coal nitrogen removal during pyrolysis
Wu ZH, Sugimoto Y, Kawashima H |
| 1121 - 1122 |
Viscoelastic properties of concentrated solution of coal with N-methyl-2-pyrrolidinone
Norinaga K, Kuniya M, Iino M |
| 1125 - 1125 |
Characterization of chars prepared from various pulverized coals at different temperatures using drop-tube furnace (vol 4, pg 869, 2000)
Lu LM, Sahajwalla V, Harris D |
