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Fluidization of nanopowders: a review.A source to deliver mesoscopic particles for laser plasma studies.Carbon nanotube mass production: principles and processes.Spray granulation for drug formulation.Penetration in bimodal, polydisperse granular material.Nano-TiO 2 enriched polymeric powder coatings support human mesenchymal cell attachment and growth.Selective phenol methylation to 2,6-dimethylphenol in a fluidized bed of iron-chromium mixed oxide catalyst with o-cresol circulation.Development and evaluation of a fluidized bed system for wheat grain disinfection.Effects of pressure drop and superficial velocity on the bubbling fluidized bed incinerator.Magnetofluidization of fine magnetite powder.A complete multi-scale simulation of light absorption within a fluidized bed photoreactor using integrated particle, fluid and photon behaviour models.Carbon nanotubes: an example of multiscale development--a mechanistic view from the subnanometer to the meter scale.Investigation on influence of Wurster coating process parameters for the development of delayed release minitablets of Naproxen.Anomalous Sinking of Spheres due to Local Fluidization of Apparently Fixed Powder Beds.Continuum simulations of shocks and patterns in vertically oscillated granular layers.Types of gas fluidization of cohesive granular materials.Properties of spent active coke particles analysed via comminution in spouted bed.Effects of angle on the transport velocity in an inclined fluidized-bedApplication of radioactive particle tracking to indicate shed fouling in the stripper section of a fluid cokerMinimum pickup velocity: The transition between nano-scale and micro-scaleModeling the size distribution in a fluidized bed of nanopowderMinimum pickup velocity (U pu) of nanoparticles in gas–solid pneumatic conveyingExperimental Fluid Dynamics Study in a Fluidized Bed by Deterministic Chaos AnalysisImproving the gas–solids contact efficiency in a fluidized bed of CO2 adsorbent fine particlesApplication of experimental and numerical models to the physics of multiparticle systemsThe relationship between attractive interparticle forces and bulk behaviour in dry and uncharged fine powdersEnhanced run-out of dam-break granular flows caused by initial fluidization and initial material expansionBehavior of Ultrafine versus Superfine Powders in a Binary-Mixture Semi-Batch Circulating Fluidized BedMicrowave fluidized bed for biomass pyrolysis. Part I: Process designA Comparative Analysis of the Flow Properties between Two Alumina-Based Dry PowdersPore fluid pressure diffusion in defluidizing granular columnsHydrodynamics of a Novel Design Circulating Fluidized Bed Steam Reformer Operating in the Dense Suspension Upflow RegimeDEM Study of Wet Cohesive Particles in the Presence of Liquid Bridges in a Gas Fluidized BedFabrication of Al2O3-Cu Nanocomposites Using Rotary Chemical Vapor Deposition and Spark Plasma Sintering
P2860
Q30467642-07FDEEA2-1C1E-450D-96FE-4C896BBC8A27Q36294294-CDBFB820-C87E-4966-BABC-36C7AC056E63Q37898087-A3AA3F74-ABFC-40CE-A67A-067E5A75B6CFQ37957960-B65AE081-7774-46C0-8AEC-5463B6DB3F5AQ39102258-D08B3B37-B541-421C-95B2-3D17B4251E29Q39711067-6D8A2A67-B9FD-457E-A116-00340A60077DQ42095567-02EDCDBC-ADFB-4A84-9149-60A1CC178D44Q42932640-4ED37EA6-60AE-48B6-9A66-FBECBEC747A7Q43356421-4E215B63-32C5-4B70-895C-B5CB499B1163Q44387766-122FB2C2-22B2-4896-A937-F7296BBC4773Q44578760-CFD94DC1-F45A-4379-8BCC-9507651948E3Q45767298-B979D75E-DD45-42B5-B68D-771A77334956Q48713917-3A0A0247-B025-438C-B458-F5864BE23802Q50703959-E39AF2E2-C5B5-4D40-9170-3CD4EC959F1CQ51592067-0B557C97-5060-414C-BC69-C05E9820C05DQ51914890-E2B0C074-304D-4B12-B134-C7B11949DE06Q54331341-27CB885F-FE06-4D1A-8BCF-9A86F2E23825Q56915570-37818D94-76F7-4AB4-A96D-78B80E89CBEBQ57319666-88CBC2C8-DAD6-4951-902C-6959313C8022Q57385579-DFF75B1A-4F9D-4897-8D8E-AAEF01D810DCQ57385581-67004435-6201-4865-9177-80F1553227C6Q57385610-84B7FE14-CE07-4E71-876F-53AC0766B4ABQ57388627-0D614331-AD53-4BD8-9C24-F03377C78CF0Q57697611-D8F7C61A-06ED-4555-9B7A-97908A2AA59CQ58285501-4480F904-CA3F-4C07-A95C-74952D2DF9A4Q58301163-98BA14C1-BE15-4490-B274-3325A16A7D8DQ58308328-EA1ECDAE-8F4C-4F5D-827F-143B6E515C27Q58330940-B864D6A0-3352-41B9-A325-A2A3B39CD82BQ58420828-F056B5C4-F3A2-4BAC-A831-41B3E18FBF32Q58918585-F6BE3652-C238-42B9-A1AD-3F45A2017781Q58965750-63DA8D9C-1B00-45EE-AC0E-D3EC4DABB834Q59049895-EBB888A4-4CD7-4576-814D-A20D75BE57C1Q59065826-F46406C8-18E6-4BC2-AE77-D48164D6F841Q59113653-7E8A3784-D2E9-42C7-8164-01E5B4791710
P2860
description
1973 nî lūn-bûn
@nan
1973 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1973 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1973年の論文
@ja
1973年論文
@yue
1973年論文
@zh-hant
1973年論文
@zh-hk
1973年論文
@zh-mo
1973年論文
@zh-tw
1973年论文
@wuu
name
Types of gas fluidization
@ast
Types of gas fluidization
@en
type
label
Types of gas fluidization
@ast
Types of gas fluidization
@en
prefLabel
Types of gas fluidization
@ast
Types of gas fluidization
@en
P3181
P1433
P1476
Types of gas fluidization
@en
P2093
D. Geldart
P304
P3181
P356
10.1016/0032-5910(73)80037-3
P577
1973-05-01T00:00:00Z