| 245 - 254 |
Sulfur transformation during rapid hydropyrolysis of coal under high pressure by using a continuous free fall pyrolyzer
Xu WC, Kumagai M |
| 255 - 266 |
In situ desulfurization during combustion of high-sulfur coals added with sulfur capture sorbents
Zhang L, Sato A, Ninomiya Y, Sasaoka E |
| 267 - 274 |
Influence of potassium loading at different reaction temperatures on the NOx reduction process by potassium-containing coal pellets
Bueno-Lopez A, Garcia-Garcia A, Caballero JA, Linares-Solano A |
| 275 - 283 |
Co-current and counter-current fixed bed combustion of biofuel - a comparison
Thunman H, Leckner B |
| 285 - 292 |
Volatiles release and porosity evolution during high pressure coal pyrolysis
Tomeczek J, Gil S |
| 293 - 304 |
Distinctive combustion stages of single heavy oil droplet under microgravity
Ikegami M, Xu G, Ikeda K, Honma S, Nagaishi H, Dietrich DL, Takeshita Y |
| 305 - 317 |
Catalytic gasification of coal using eutectic salts: reaction kinetics with binary and ternary eutectic catalysts
Sheth A, Yeboah YD, Godavarty A, Xu Y, Agrawal PK |
| 319 - 330 |
Combustion characteristics of droplets composed of light cycle oil and diesel light oil in a hot-air chamber
Xu GW, Ikegami M, Honma S, Sasaki M, Ikeda K, Nagaishi H, Takeshita Y |
| 331 - 336 |
Mineralogy and microstructure of sintered lignite coal fly ash
Ilic M, Cheeseman C, Sollars C, Knight J |
| 337 - 342 |
Study of pyrolysis kinetics of oil shale
Li SY, Yue CT |
| 343 - 350 |
Combined effects of pressure and ion-exchangeable metallic species on pyrolysis of Victorian lignite
Sathe C, Hayashi J, Li CZ, Chiba T |
