| 455 - 455 |
Preface
Derbyshire F |
| 457 - 473 |
The release of nitrogen oxides during char combustion
Thomas KM |
| 475 - 491 |
A review of the kinetics of the nitric oxide carbon reaction
Aarna I, Suuberg EM |
| 493 - 498 |
A study of the C-NO reaction by using isotopically labelled C and NO
Chambrion P, Orikasa H, Suzuki T, Kyotani T, Tomita A |
| 499 - 505 |
Potassium-containing briquetted coal for the reduction of NO
GarciaGarcia A, IllanGomez M, LinaresSolano A, deLecea CSM |
| 507 - 515 |
A review of NOx reduction on zeolitic catalysts under diesel exhaust conditions
Gilot P, Guyon M, Stanmore BR |
| 517 - 520 |
The catalytic reduction of nitric oxide by carbon monoxide over silica
VixGuterl C, Lahaye J, Ehrburger P |
| 521 - 526 |
The effect of low-concentration SO2 on the adsorption of NO from gas over activated carbon
Rubel AM, Stencel JM |
| 527 - 532 |
CaO dispersed on carbon as an SO2 sorbent
MunozGuillena MJ, MaciasPerez MC, LinaresSolano A, deLecea CSM |
| 533 - 536 |
Kinetic study of the continuous removal of SOx on polyacrylonitrile-based activated carbon fibres .1. Catalytic activity of PAN-ACF heat-treated at 800 degrees C
Mochida I, Kuroda K, Kawano S, Matsumura Y, Yoshikawa M |
| 537 - 541 |
Kinetic study of the continuous removal of SOx using polyacrylonitrile-based activated carbon fibres .2. Kinetic model
Mochida I, Kuroda K, Kawano S, Matsumura Y, Yoshikawa M, Grulke E, Andrews R |
| 543 - 548 |
High catalytic activity of pitch based activated carbon fibres of moderate surface area for oxidation of NO to NO2 at room temperature
Mochida I, Kawabuchi Y, Kawano S, Matsumura Y, Yoshikawa M |
| 549 - 553 |
Combined desulfurization, denitrification and reduction of air toxics using activated coke .1. Activity of activated coke
Tsuji K, Shiraishi I |
| 555 - 560 |
Combined desulfurization, denitrification and reduction of air toxics using activated coke .2. Process applications and performance of activated coke
Tsuji K, Shiraishi I |
