| 1 - 2 |
Editorial:Fluidization for Emerging Green Technologies
Chaouki J, Shabanian J |
| 3 - 17 |
CLC, a promising concept with challenging development issues
Gauthier T, Yazdanpanah M, Forret A, Amblard B, Lambert A, Bertholin S |
| 18 - 28 |
From a CFB reactor to a CFB boiler - The review of R&D progress of CFB coal combustion technology in China
Yue GX, Cai RX, Lu JF, Zhang H |
| 29 - 40 |
Mixing and segregation in fluidized bed thermochemical conversion of biomass
Salatino P, Solimene R |
| 41 - 48 |
X-ray imaging for design of gas nozzles in large scale fluidised bed reactors
Materazzi M, Lettieri P, Dodds JM, Milliken A |
| 49 - 58 |
Horizontal secondary gas injection in fluidized beds: Solid concentration and velocity in multiphase jets
Koeninger B, Hensler T, Schug S, Arlt W, Wirth KE |
| 59 - 68 |
Applications of tribology to determine attrition by wear of particulate solids in CFB systems
Bayham SC, Breault R, Monazam E |
| 69 - 78 |
Attrition characteristics of iron ore by an air jet in gas-solid fluidized beds
Kang DH, Ko CK, Lee DH |
| 79 - 86 |
Attrition of methanol to olefins catalyst in jet cup
Hao JG, Zhao YF, Ye M, Liu ZM |
| 87 - 91 |
A new method to measure fine particle circulation rates in draft tube conical spouted beds
Estiati I, Altzibar H, Tellabide M, Olazar M |
| 92 - 100 |
Development and study of measurement methods for bogging in a fluidized bed
Briens C, Hamidi M, Berruti F, McMillan J |
| 101 - 110 |
Segregation of equal-sized particles of different densities in a vertically vibrated fluidized bed
Cano-Pleite E, Hernandez-Jimenez F, Acosta-Iborraa A, Tsuji T, Muller CR |
| 111 - 122 |
Effect of bed particle size on heat transfer between fluidized bed of group b particles and vertical rifled tubes
Blaszczuk A, Nowak W, Krzywanski J |
| 123 - 130 |
Experimental study of the application of rotating fluidized beds to particle separation
Weber JM, Stehle RC, Breault RW, De Wilde J |
| 131 - 138 |
Analysis of industrial reactive powders flow properties at high temperature
Macri D, Poletto M, Barletta D, Sutcliffe S, Lettieri P |
| 139 - 147 |
Performance evaluation of different approaches for early detection of defluidization
Shabanian J, Sauriol P, Mostoufi N, Chaouki J |
| 148 - 156 |
Monitoring of liquid sprayed conical spouted beds by recurrence plots
Savari C, Kulah G, Koksal M, Sotudeh-Gharebagh R, Zarghami R, Mostoufi N |
| 157 - 165 |
The relationship between fluidized bed electrostatics and entrainment
Fotovat F, Alsmari TA, Grace JR, Bi XTT |
| 166 - 170 |
Mechanism of particle build-up on gas-solid fluidization column wall due to electrostatic charge generation
Song D, Mehrani P |
| 171 - 180 |
Investigation on drying kinetics and tribocharging behaviour of pharmaceutical granules in a fluidized bed dryer
Taghavivand M, Choi K, Zhang L |
| 181 - 189 |
The effect of riser end geometry on gas-solid hydrodynamics in a CFB riser operating in the core annular and dilute homogeneous flow regimes
Breault RW, Monazam ER, Shadle LJ, Rowan S, Macfarlan LH |
| 190 - 197 |
Performance prediction of riser termination devices using Barracuda Virtual Reactor (R)
Kodam M, Freireich BJ, Pretz MT, Stears BA |
| 198 - 206 |
Particle cluster sizing in downer units. Applicable methodology across downer scale units
Lanza A, Islam M, de Lasa H |
| 207 - 217 |
Experimental investigation on the generic effects of gas permeation through flat vertical membranes
Wassie SA, Cloete S, Zaabout A, Gallucci F, Annaland MV, Amini S |
| 218 - 224 |
Collision dynamics of wet solids: Rebound and rotation
Buck B, Tang YL, Heinrich S, Deen NG, Kuipers JAM |
| 225 - 232 |
Sub-grid drag model for immersed vertical cylinders in fluidized beds
Verma V, Li TW, Dietiker JF, Rogers WA |
| 233 - 244 |
New hybrid CPU-GPU solver for CFD-DEM simulation of fluidized beds
Norouzi HR, Zarghami R, Mostoufi N |
| 245 - 255 |
CFD-DEM modeling of a three-dimensional prismatic spouted bed
Pietsch S, Heinrich S, Karpinski K, Muller M, Schonherr M, Jager FK |
| 256 - 264 |
Investigation of collisional parameters for rough spheres in fluidized beds
Yang L, Padding JT, Kuipers JAM |
| 265 - 277 |
The sensitivity of filtered Two Fluid Model to the underlying resolved simulation setup
Cloete JH, Cloete S, Municchi F, Radl S, Amini S |
| 278 - 288 |
Simulation of liquid film effects on vortex formation with gas-liquid two-phase flow around a spherical particle
He GX, Chen B, Mo HY, Jin HB, Zeng ZW, Du W |
| 289 - 295 |
Mixing and separation of liquid-liquid two-phase in a novel cyclone reactor of isobutane alkylation catalyzed by ionic liquid
Zhang MY, Zhang TY, Wang ZB, Zhu LY, Jin YH |
| 296 - 302 |
Force on a large sphere immersed in an expanded water-fluidized bed over a wide range of voidage values
Di Renzo A, Grassano N, Di Maio FP |
| 303 - 314 |
Experimental investigation of collision behavior of fluidized solid particles on the tube wall of a graphite evaporator by vibration signal analysis
Ma Y, Liu MY, An M, Xu XP |
| 315 - 328 |
Nonlinear behaviors of vibration acceleration signals in a graphite tube with vapor-liquid-solid boiling flows
Xu XP, Liu MY, Ma Y, An M |
| 329 - 337 |
Experimental investigation of fibre particles in a turbulent stirred tank with DPIV
Fan L, Xu N |
| 338 - 344 |
Effects of high-frequency pulsed electrical field and operating parameters on dehydration of SAGD produced ultra-heavy oil
Li B, Fan YX, Sun ZQ, Wang ZB, Zhu LY |
| 345 - 356 |
Reversal of gulf stream circulation in a vertically vibrated triangular fluidized bed
Cano-Pleite E, Hernandez-Jimenez F, Acosta-Iborra A, Muller CR |
| 357 - 366 |
Characterization of a downer reactor for particle rounding
Sachs M, Friedle M, Schmidt J, Peukert W, Wirth KE |
| 367 - 372 |
Analyzing the fluidization of a gas-sand-biomass mixture using CFD techniques
Sant'Anna MCS, Cruz WRD, da Silva GF, Medronho RD, Lucena S |
| 373 - 387 |
Gas-solid mixing and mass transfer in a tapered fluidized bed of biomass with pulsed gas flow
Jia DN, Bi XT, Lim CJ, Sokhansanj S, Tsutsumi A |
| 388 - 399 |
Pulsation-assisted fluidized bed for the fluidization of easily agglomerated particles with wide size distributions
Liu YP, Ohara H, Tsutsumi A |
| 400 - 409 |
Jiggle bed reactor for testing catalytic activity of olivine in bio-oil gasification
Latifi M, Berruti F, Briens C |
| 410 - 420 |
Reduction of hematite (Fe2O3) to metallic iron (Fe) by CO in a micro fluidized bed reaction analyzer: A multistep kinetics study
Chen HS, Zheng Z, Chen ZW, Bi XTT |
| 421 - 425 |
Spouted bed design considerations for coated nuclear fuel particles
Marshall DW |
| 426 - 433 |
Using dilute spouting for fabrication of highly filled metal-polymer composite materials
Eichner E, Salikov V, Bassen P, Heinrich S, Schneider GA |
| 434 - 440 |
Spray dried SiO2 WO3/TiO2 and SiO2 vanadium pyrophosphate core-shell catalysts
Saadatkhah N, Rigamonti MG, Boffito DC, Li H, Patience GS |
| 441 - 445 |
Long-term fluidization of titania nanoparticle agglomerates
Mogre C, Thakurdesai AU, van Ommen JR, Salameh S |
| 446 - 454 |
Characterization of TiO2 nanoparticles fluidization using X-ray imaging and pressure signals
Gomez-Hernandez J, Sanchez-Delgado S, Wagner E, Mudde RF, van Ommen JR |
| 455 - 461 |
De-agglomeration of nanoparticles in a jet impactor-assisted fluidized bed
Lari HN, Chaouki J, Tavares JR |
| 462 - 468 |
Validation of the oxygen buffering ability of bed materials used for OCAC in a large scale CFB boiler
Lind F, Corcoran A, Thunman H |
| 469 - 475 |
Fluid dynamics study on a dual fluidized bed cold-flow model
Habl MA, Frohner A, Tondl G, Pfeifer C |
| 476 - 491 |
Hydrodynamics of compartmented fluidized beds under uneven fluidization conditions
Migliozzi S, Paulillo A, Chirone R, Salatino P, Solimene R |
| 492 - 499 |
Experimental characterization of axial fuel mixing in fluidized beds by magnetic particle tracking
Kohler A, Rasch A, Pallares D, Johnsson F |
| 500 - 511 |
Gas-flow distribution in bubbling fluidized beds: CFD-based analysis and impact of operating conditions
Bakshi A, Altantzis C, Glicksman LR, Ghoniem AF |
| 512 - 518 |
Heat transfer challenge and design evaluation for a multi-stage temperature swing adsorption process
Hofer G, Fuchs J, Schony G, Proll T |
| 519 - 527 |
A multi-stage fluidized bed system for continuous CO2 capture by means of temperature swing adsorption - First results from bench scale experiments
Schony G, Dietrich F, Fuchs J, Proll T, Hofbauer H |
| 528 - 534 |
Fluid-dynamic study on a multistage fluidized bed column for continuous CO2 capture via temperature swing adsorption
Zehetner E, Schony G, Fuchs J, Proll T, Hofbauer H |
| 535 - 541 |
Thermal cracking of canola oil in a continuously operating pilot plant
Fimberger J, Swoboda M, Reichhold A |
| 542 - 550 |
Hydrocracking of a plastic mixture over various micro-mesoporous composite zeolites
Munir D, Abdullah, Piepenbreier F, Usman MR |
| 551 - 559 |
Catalytic ash free coal gasification in a fluidized bed thermogravimetric analyzer
Samih S, Chaouki J |
| 560 - 568 |
Modeling FCC spent catalyst regeneration with computational fluid dynamics
Singh R, Gbordzoe E |
| 569 - 577 |
Fluidized bed reactor design study for pressurized chemical looping combustion of natural gas
Zerobin F, Penthor S, Bertsch O, Proll T |
| 578 - 584 |
Effect of steam on the performance of Ca-based sorbents in calcium looping processes
Coppola A, Gais E, Mancino G, Montagnaro F, Scala F, Salatino P |
| 585 - 591 |
A twin-bed test reactor for characterization of calcium looping sorbents
Coppola A, Scala F, Gargiulo L, Salatino P |
| 592 - 598 |
A 1.5D model of a complex geometry laboratory scale fuidized bed dc equipment
Krzywanski J, Zylka A, Czakiert T, Kulicki K, Jankowska S, Nowak W |
| 599 - 613 |
Modelling study of two chemical looping reforming reactor configurations: looping vs. switching
Morgado JF, Cloete S, Morud J, Gurker T, Amini S |
| 614 - 627 |
Numerical simulation of hydrogen production by chemical looping reforming in a dual fluidized bed reactor
Diglio G, Bareschino P, Solimene R, Mancusi E, Pepe F, Salatino P |
| 628 - 640 |
Dynamic flowsheet simulation of gas and solids flows in a system of coupled fluidized bed reactors for chemical looping combustion
Haus J, Hartge EU, Heinrich S, Werther J |
| 641 - 649 |
Computational Fluid Dynamics study of the CREC Riser Simulator: Mixing patterns
Ahmed I, Rostom S, Lanza A, de Lasa H |
| 650 - 657 |
Estimation of solids circulation rate through magnetic tracer tests
Guio-Perez DC, Dietrich F, Cala JNF, Proll T, Hofbauer H |
| 658 - 669 |
Measurement of solids circulation rate in a high-temperature dual fluidized bed pilot plant
Rahman MH, Bi XTT, Grace JR, Lim CJ |
| 670 - 676 |
Solids circulation in circulating fluidized beds with low riser aspect ratio and varying total solids inventory
Karlsson T, Liu XM, Pallares D, Johnsson F |
| 677 - 686 |
The role of fuel mixing on char conversion in a fluidized bed
Lundberg L, Soria-Verdugo A, Pallares D, Johansson R, Thunman H |
| 687 - 696 |
Investigations using a cold flow model of char mixing in the gasification reactor of a dual fluidized bed gasification plant
Kraft S, Kirnbauer F, Hofbauer H |
| 697 - 710 |
A Lagrangian-Eulerian hybrid model for the simulation of poly-disperse fluidized beds: Application to industrial-scale olefin polymerization
Schneiderbauer S, Pirker S, Puttinger S, Aguayo P, Touloupidis V, Joaristi AM |
| 711 - 717 |
Expansion properties of alginate beads as cell carrier in the fluidized bed bioartificial liver
Naghib SD, Pandolfi V, Pereira U, Girimonte R, Curcio E, Di Maio FP, Legallais C, Di Renzo A |
| 718 - 724 |
Combustion of lignin-rich residues with coal in a pilot-scale bubbling fluidized bed reactor
Solimene R, Cammarota A, Chirone R, Leoni P, Rossi N, Salatino P |
| 725 - 739 |
Experimental validation of CFD hydrodynamic models for catalytic fast pyrolysis
Adkins BD, Kapur N, Dudley T, Webb S, Blaser P |
