| 337 - 337 |
New Developments in Fluidization Technology
Heinrich S, Werther J |
| 343 - 347 |
Employing Catalyst Fluidization to Enable Carbon Management in the Synthetic Natural Gas Production from Biomass
Kopyscinski J, Schildhauer TJ, Biollaz SMA |
| 348 - 354 |
In Situ CO2 Capture in a Dual Fluidized Bed Biomass Steam Gasifier -Red Material and Fuel Variation
Soukup G, Pfeifer C, Kreuzeder A, Hofbauer H |
| 355 - 363 |
Near Zero CO2 Emissions in Coal Firing with Oxy-Fuel Circulating Fluidized Bed Boiler
Myohanen K, Hyppanen T, Pikkarainen T, Eriksson T, Hotta A |
| 364 - 372 |
A Novel Liquid-Solid Circulating Fluidized-Bed Bioreactor for Biological Nutrient Removal from Municipal Wastewater
Chowdhury N, Zhu J, Nakhla G, Patel A, Islam M |
| 373 - 379 |
Reactor Technologies for Propane Partial Oxidation to Acrylic Acid
Godefroy A, Patience GS, Tzakova T, Garrait D, Dubois JL |
| 380 - 385 |
Limestone Attrition under Simulated Oxyfiring Fluidized-Bed Combustion Conditions
Scala F, Salatino P |
| 386 - 391 |
Discrete Element Method Simulation of Cylinder-Shaped Particle Flow in a Gas-Solid Fluidized Red
Zhong WQ, Zhang Y, Jin BS, Zhang MY |
| 392 - 397 |
Evaluation of the Limiting Regime in Iron Ore Fines Reduction with H-2-Rich Gases in Fluidized Beds: Fe2O3 to Fe3O4
Sturn J, Voglsam S, Weiss B, Schenk J, Winter F |
| 398 - 403 |
Design of a Chemical Looping Combustor using a Dual Circulating Fluidized Bed Reactor System
Kolbitsch P, Proll T, Bolhar-Nordenkampf J, Hofbauer H |
| 404 - 409 |
Mapping of the Operating Conditions for an Interconnected Fluidized Bed Reactor for CO2 Separation by Chemical Looping Combustion
Xu M, Ellis N, Lim CJ, Ryu HJ |
| 410 - 417 |
Comprehensive Modeling Tool for Chemical Looping Based Processes
Bolhar-Nordenkampf J, Proll T, Kolbitsch P, Hofbauer H |
| 418 - 424 |
Cold Flow Model Study on a Dual Circulating Fluidized Bed System for Chemical Looping Processes
Proll T, Rupanovits K, Kolbitsch P, Bolhar-Nordenkampf J, Hofbauer H |
| 425 - 434 |
Changes in Limestone Sorbent Morphology during CaO-CaCO3 Looping at Pilot Scale
Hughes RW, Macchi A, Lu DY, Anthony EJ |
| 435 - 442 |
Simulation of the Carbonate Looping Process for Post-Combustion CO2 Capture from a Coal-Fired Power Plant
Strohle J, Lasheras A, Galloy A, Epple B |
| 443 - 449 |
Nickel- and Copper-Based Oxygen Carriers for Chemical Looping Combustion
Hoteit A, Chandel MK, Delebarre A |
| 450 - 453 |
Minimum Circulation Velocity in a Spouted Bed Apparatus with Draft Tube
Kmiec A, Ludwig W, Szafran R |
| 454 - 462 |
Discrete Particle Simulation Study on the Influence of the Restitution Coefficient on Spout Fluidized-Bed Dynamics
van Buijtenen MS, Deen NG, Heinrich S, Antonyuk S, Kuipers JAM |
| 463 - 469 |
Hydrodynamics of Conical Spouted Beds Using Different Types of Internal Devices
Altzibar H, Lopez G, Aguado R, Alvarez S, San Jose MJ, Olazar M |
| 470 - 481 |
Three-Dimensional Computational Fluid Dynamics Modeling of a Prismatic Spouted Bed
Gryczka O, Heinrich S, Deen NG, Kuipers JAM, Morl L |
| 482 - 491 |
Downer-to-Riser Coupling Technique for Petroleum Refining
Wu CN, Cheng Y, Jin Y |
| 492 - 500 |
Probability Density Function (PDF) Simulation of Turbulent Reactive Gas-Solid Flow in a Riser
Vegendla SNP, Heynderickx GJ, Marin GB |
