Modeling the thermophoretic impact on nanoparticle production in an enclosed FSP reactor

[1]  H. Wiggers,et al.  The role of phase transition by inception and surface reactions for the synthesis of silicon nanoparticles in a hot-wall reactor – simulation and experiment , 2023, Chemical Engineering Journal.

[2]  E. Tsotsas,et al.  Distribution characteristics of salt crystals in a supercritical water fluidized bed reactor with CFD-PBM coupled model , 2023, Powder Technology.

[3]  Daoyin Liu,et al.  Combining Density Functional Theory and Cfd-Pbm Model to Predict Tio2 Nanoparticle Evolution During Chemical Vapor Deposition , 2022, SSRN Electronic Journal.

[4]  H. Wiggers,et al.  The role of phase transition by nucleation, condensation, and evaporation for the synthesis of silicon nanoparticles in a microwave plasma reactor — Simulation and experiment , 2022, Chemical Engineering Journal.

[5]  U. Fritsching,et al.  Modeling the Carbon Black Production in Enclosed FSP Reactor , 2022, World Congress on Momentum, Heat and Mass Transfer.

[6]  S. Rigopoulos,et al.  Effects of the electric field on soot formation in combustion: A coupled charged particle PBE-CFD framework , 2021, Combustion and Flame.

[7]  U. Fritsching,et al.  Correction to: Impact of Reaction Chamber Geometry on the Particle‑Residence‑Time in Flame Spray Process , 2020, Flow, Turbulence and Combustion.

[8]  H. Meier,et al.  Modelling polydisperse nanoparticle size distributions as produced via flame spray pyrolysis , 2020, Powder Technology.

[9]  A. Kempf,et al.  SpraySyn-A standardized burner configuration for nanoparticle synthesis in spray flames. , 2019, The Review of scientific instruments.

[10]  U. Fritsching,et al.  Impact of co-flow on the spray flame behaviour applied to nanoparticle synthesis , 2019, The Canadian Journal of Chemical Engineering.

[11]  H. Meier,et al.  Combustion kinetic analysis of flame spray pyrolysis process , 2018, Chemical Engineering and Processing - Process Intensification.

[12]  Yanjie Hu,et al.  Metallic iron nanoparticles: Flame synthesis, characterization and magnetic properties , 2013 .

[13]  Daniel Joseph Styles,et al.  CFD analysis of particle transport in axi-symmetric tube flows under the influence of thermophoretic force , 2013 .

[14]  S. Pratsinis,et al.  Design of Turbulent Flame Aerosol Reactors by Mixing-Limited Fluid Dynamics , 2011 .

[15]  V. Raghavan,et al.  On the Estimation and Validation of Global Single-Step Kinetics Parameters of Ethanol-Air Oxidation Using Diffusion Flame Extinction Data , 2010 .

[16]  Deling Liu Particle Deposition onto Enclosure Surfaces , 2009 .

[17]  P. Glarborg,et al.  Global Combustion Mechanisms for Use in CFD Modeling under Oxy-Fuel Conditions , 2009 .

[18]  S. Pratsinis,et al.  Growth of zirconia particles made by flame spray pyrolysis , 2004 .

[19]  K. W. Lee,et al.  Evolution of Particle Size Distributions due to Turbulent and Brownian Coagulation , 2002 .

[20]  I. S. Ertesvåg,et al.  The Eddy Dissipation Turbulence Energy Cascade Model , 2000 .

[21]  H. Schaefer,et al.  OXYGEN DIFFUSION IN ULTRAFINE GRAINED MONOCLINIC ZRO2 , 1999 .

[22]  W. Sirignano,et al.  Axisymmetric Flame Spread Across Propanol Pools in Normal and Zero Gravities , 1998 .

[23]  Katsuki Kusakabe,et al.  Growth and transformation of TiO2 crystallites in aerosol reactor , 1991 .

[24]  W. P. Jones,et al.  Global reaction schemes for hydrocarbon combustion , 1988 .

[25]  R. Schefer,et al.  Thermophoresis of particles in a heated boundary layer , 1980, Journal of Fluid Mechanics.

[26]  G. D. Ulrich,et al.  Theory of Particle Formation and Growth in Oxide Synthesis Flames , 1971 .

[27]  A. Madeyski,et al.  Oxygen diffusion in monoclinic zirconia , 1968 .

[28]  James R. Brock,et al.  On the theory of thermal forces acting on aerosol particles , 1962 .

[29]  Noah H. Paulson,et al.  Computational fluid dynamics modeling and analysis of silica nanoparticle synthesis in a flame spray pyrolysis reactor , 2022, Combustion and Flame.

[30]  L. Mädler,et al.  INFLUENCE OF ATOMIZATION AND SPRAY PARAMETERS ON THE FLAME SPRAY PROCESS FOR NANOPARTICLE PRODUCTION , 2014 .

[31]  U. Ghia,et al.  Procedure for Estimation and Reporting of Uncertainty Due to Discretization in CFD Applications , 2007 .

[32]  Antonello Barresi,et al.  Implementation of the population balance equation in CFD codes for modelling soot formation in turbulent flames , 2006 .

[33]  Sotiris E. Pratsinis,et al.  A Simple Model for the Evolution of the Characteristics of Aggregate Particles Undergoing Coagulation and Sintering , 1993 .

[34]  D. Douglass,et al.  The diffusion of oxygen in Zirconia as a function of oxygen pressure , 1971 .