| 899 - 905 |
Kinetics of asphaltene hydroconversion .1. Thermal hydrocracking of a coal residue
Martinez MT, Benito AM, Callejas MA |
| 907 - 911 |
Kinetics of asphaltene hydroconversion .2. Catalytic hydrocracking of a coal residue
Benito AM, Callejas MA, Martinez MT |
| 913 - 918 |
Catalytic activities of metal oxides containing iron for hydrocracking coal model compounds and Taiheiyo coal
Matsuhashi H, Nakamura H, Arata K, Yoshida R, Maekawa Y |
| 919 - 929 |
Flue gas recirculation in a gas-fired laboratory furnace: Measurements and modelling
Baltasar J, Carvalho MG, Coelho P, Costa M |
| 931 - 937 |
Characterization by C-13 nmr spectroscopy of base oils produced by different processes
Sarpal AS, Kapur GS, Mukherjee S, Jain SK |
| 939 - 943 |
Behaviour of sulfur in high-sulfur coal in a superacidic medium without gaseous hydrogen
Shimizu K, Iwami Y, Suganuma A, Saito I |
| 945 - 949 |
Kinetic study of high-pressure pulverized coal char combustion: Experiments and modelling
Banin V, Moors R, Veefkind B |
| 951 - 955 |
Correlations of properties of Spanish coals with their natural radionuclides contents
Fernandez P, Diaz RM, Xiberta J |
| 957 - 964 |
Influences of physical properties on biomass devolatilization characteristics
DiBlasi C |
| 965 - 974 |
New technique for the electrochemical analysis of coal-derived materials
Borover GY, Bartle KD, Taylor N, Burchill P |
| 975 - 983 |
The role of the diffusion of oxygen in the ignition of a coal stockpile in confined storage
Hull A, Lanthier JL, Agarwal PK |
