| 89 - 89 |
Special issue on advances in fluidized bed combustion
Pisupati SV |
| 90 - 98 |
Assessment of sorbent reactivation by water hydration for fluidized bed combustion application
Montagnaro F, Salatino P, Scala F, Wu YH, Anthony EJ, Jia LF |
| 99 - 103 |
NOX and N2O emissions during fluidized bed combustion of leather wastes
Bahillo A, Armesto L, Cabanillas A, Otero J |
| 104 - 110 |
The study of partitioning of heavy metals during fluidized bed combustion of sewage sludge and coal
Gulyurtlu I, Lopes MH, Abelha P, Cabrita I, Oliveira JFS |
| 111 - 117 |
Hydrodynamic performance of a novel design of pressurized fluidized bed combustor
Wang ALT, Stubington JF, Xu J |
| 118 - 122 |
The implications of burning a blend of waste materials in a fluidizied bed combustor
Gulyurtlu I, Abelha P, Boavida D, Seabra J, Gomes S, Chaleta N, Cabrita I |
| 123 - 128 |
The study of combustion of municipal waste in a fluidized bed combustor
Gulyurtlu I, Crujeira T, Lopes MH, Abelha P, Boavida D, Seabra J, Goncalves R, Sargaco C, Cabrita I |
| 129 - 134 |
Flow regime study of a light material in an industrial scale cold flow circulating fluidized bed
Mei JS, Monazam ER, Shadle LJ |
| 135 - 142 |
The performance of a loop seal in a CFB boiler
Johansson A, Johnsson F, Andersson BA |
| 143 - 149 |
Early agglomeration recognition system (EARS)
Korbee R, van Ommen JR, Lensselink J, Nijenhuis J, Kiel JHA, van den Bleek CM |
| 150 - 153 |
Atmospheric fluidized bed combustion (AFBC) plants: An operations and maintenance study
Fuller JA, Beavers H, Bessette R |
| 154 - 158 |
Ash cooling screws - A retrospective and looking ahead
Kerner JW, Stetler GW |
