| 1 - 1 |
Fluidized bed applications - Preface
Salman AD, Hounslow MJ |
| 2 - 27 |
Bubble formation and dynamics in gas-liquid-solid fluidization- A review
Yang GQ, Du B, Fan LS |
| 28 - 44 |
Review of discrete particle modeling of fluidized beds
Deen NG, Annaland MV, Van der Hoef MA, Kuipers JAM |
| 45 - 55 |
Fluidization of biomass particles: A review of experimental multiphase flow aspects
Cui HP, Grace JR |
| 56 - 69 |
Bubble distribution and behaviour in bubbling fluidised beds
Lim CN, Gilbertson MA, Harrison AJL |
| 70 - 81 |
Generalized bubbling-slugging fluidized bed reactor model
Constantineau JP, Grace JR, Lim CJ, Richards GG |
| 82 - 93 |
Rise velocities of bubbles and slugs in gas-fluidised beds: Ultra-fast magnetic resonance imaging
Muller CR, Davidson JF, Dennis JS, Fennell PS, Gladden LF, Hayhurst AN, Mantle MD, Rees AC, Sederman A |
| 94 - 108 |
Laser diagnostics of hydrodynamics and gas-mixing induced by bubble bursting at the surface of gas-fluidized beds
Solimene R, Marzocchella A, Ragucci R, Salatino P |
| 109 - 115 |
A theoretical bubble breakup model for slurry beds or three-phase fluidized beds under high pressure
Zhao H, Ge W |
| 116 - 130 |
Homogeneous and bubbling fluidization regimes in DEM-CFD simulations: Hydrodynamic stability of gas and liquid fluidized beds
Di Renzo A, Di Maio FP |
| 131 - 139 |
Gas-liquid mass transfer in a high pressure bubble column reactor with different sparger designs
Han L, Al-Dahhan MH |
| 140 - 147 |
Heat transfer coefficients in a high-pressure bubble column
Wu CT, Al-Dahhan MH, Prakash A |
| 148 - 158 |
Drag reduction and cluster formation in a circulating fluidised bed
Helland E, Bournot H, Occelli R, Tadrist L |
| 159 - 166 |
A DEM study of bubble formation in Group B fluidized beds with and without cohesive inter-particle forces
Pandit JK, Wang XS, Rhodes MJ |
| 167 - 183 |
Singlejet fluidized beds: Experiments and CFD simulations with glass and polypropylene particles
Utikar RP, Ranade VV |
| 184 - 194 |
Computer simulation of the effect of contact stiffness and adhesion on the fluidization behaviour of powders
Moreno-Atanasio R, Xu BH, Ghadiri M |
| 195 - 207 |
Discrete element study of granulation in a spout-fluidized bed
Link JM, Godlieb W, Deen NG, Kuipers JAM |
| 208 - 231 |
Simulation of gas-solid two-phase flow by a multi-scale CFD approach -Extension of the EMMS model to the sub-grid level
Wang W, Li JH |
| 232 - 245 |
Lagrangian modeling and simulation of effect of vibration on cohesive particle movement in a fluidized bed
Limtrakul S, Rotjanavijit W, Vatanatham T |
| 246 - 255 |
Numerical study of segregation using a new drag force correlation for polydisperse systems derived from lattice-Boltzmann simulations
Beetstra R, van der Hoef MA, Kuipers JAM |
| 256 - 268 |
Microdynamic modelling and analysis of the mixing and segregation of binary mixtures of particles in gas fluidization
Feng YQ, Yu AB |
| 269 - 280 |
Modelling of the turbulent gas-particle flow structure in a two-dimensional circulating fluidized bed riser
Zhou HS, Flamant G, Gauthier D |
| 281 - 293 |
Dynamic simulation of the particle size distribution in a circulating fluidized bed combustor
Hartge EU, Klett C, Werther J |
| 294 - 300 |
On the apparent viscosity of a fluidized bed
Gibilaro LG, Gallucci K, Di Felice R, Pagliai P |
| 301 - 317 |
Investigation of mixing/segregation of mixture particles in gas-solid fluidized beds
Lu HL, Zhao YH, Ding JM, Gidaspow D, Wei L |
| 318 - 327 |
Effective drag coefficient investigation in the acceleration zone of an upward gas-solid flow
Mabrouk R, Chaouki J, Guy C |
| 328 - 338 |
Spatio-temporal evolution of void fraction in liquid-solid inverse fluidized bed
Renganathan T, Krishnaiah K |
| 339 - 355 |
Experimental study of inlet phenomena of 35 degrees inclined non-aerated and aerated Y-inlets in a dilute cold-flow riser
Van Engelandt G, De Wilde J, Heynderickx GJ, Marin GB |
| 356 - 370 |
Use of parallel inclined plates to control elutriation from a gas fluidized bed
Callen A, Moghtaderi B, Galvin KP |
| 371 - 386 |
Electrostatic charging phenomenon in gas-liquid-solid flow systems
Park AHA, Fan LS |
| 387 - 396 |
An investigation of the effect of the interparticle forces on the fluidization behaviour of fine powders linked with rheological studies
Bruni G, Lettieri P, Newton D, Barletta D |
| 397 - 407 |
A rheological model for the flowability of aerated fine powders
Bruni G, Barletta D, Poletto M, Lettieri P |
| 408 - 415 |
In-line monitoring of solid-state transitions during fluidisation
Aaltonen J, Kogermann K, Strachan CJ, Rantanen J |
| 416 - 436 |
Membrane assisted fluidized bed reactors: Potentials and hurdles
Deshmukh SARK, Heinrich S, Morl L, Annaland MVS, Kuipers JAM |
| 437 - 450 |
The coefficient of restitution of different representative types of granules
Mangwandi C, Cheong YS, Adams MJ, Hounslow MJ, Salman AD |
| 451 - 462 |
Co-melt fluidised bed granulation of pharmaceuticial powders: Improvements in drug bioavailability
Walker GM, Bell SEJ, Andrews G, Jones D |
| 463 - 470 |
Drying of wet agglomerates in a continuous fluid bed: Influence of residence time, air temperature and air-flow rate on the drying kinetics and the amount of oversize particles
Palzer S |
| 471 - 480 |
Drying characteristics of porous material immersed in a bed of glass beads fluidized by superheated steam under reduced pressure
Tatemoto Y, Yano S, Mawatari Y, Noda K, Komatsu N |
| 481 - 502 |
Drying in fluidized beds with immersed heating elements
Groenewold H, Tsotsas E |
| 503 - 512 |
Modeling of heat transfer between a high-temperature fluidized bed and an immersed surface by a surface-particle-emulsion model
Wang L, Wu P, Yang J, Ni XZ |
| 513 - 532 |
A generic population balance model for simultaneous agglomeration and drying in fluidized beds
Peglow M, Kumar J, Heinrich S, Warnecke G, Tsotsas E, Morl L, Wolf B |
| 533 - 549 |
Mapping of the range of operational conditions for Cu-, Fe-, and Ni-based oxygen carriers in chemical-looping combustion
Abad A, Adanez J, Garcia-Labiano F, de Diego LF, Gayan P, Celaya J |
| 550 - 560 |
Dynamics of furnace processes in a CFB boiler
Johansson A, Johnsson F, Niklasson F, Amand LE |
| 561 - 573 |
Solids back-mixing in CFB boilers
Johansson A, Johnsson F, Leckner B |
| 574 - 583 |
A model of limestone attrition and SO2 capture in a large-scale pressurised fluidised bed combustor
Saastamoinen J, Shimizu T |
| 584 - 598 |
The devolatilisation of particles of a complex fuel (dried sewage sludge) in a fluidised bed
Scott SA, Davidson JF, Dennis JS, Hayhurst AN |
| 599 - 607 |
Numerical and experimental study of gas-particle radiative heat exchange in a fluidized-bed reactor for steam-gasification of coal
von Zedtwitz P, Lipinski W, Steinfeld A |
| 608 - 618 |
The measurement of the rate of burning of different coal chars in an electrically heated fluidised bed of sand
Fennell PS, Kadchha S, Lee HY, Dennis JS, Hayhurst AN |
| 619 - 626 |
Narrow fluidised beds arranged to exchange heat between a combustion chamber and a CO2 sorbent regenerator
Grasa GS, Abanades JC |
| 627 - 635 |
Combustion of refuse-derived fuel in a fluidised bed
Hernandez-Atonal FD, Ryu C, Sharifi VN, Swithenbank J |
| 636 - 643 |
Biomass mixing in a fluidized bed biomass gasifier for hydrogen production
Shen LH, Xiao J, Niklasson F, Johnsson F |
| 644 - 654 |
A method for agglomeration detection and control in full-scale biomass fired fluidized beds
Nijenhuis J, Korbee R, Lensselink J, Kiel JHA, van Ommen JR |
