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Dirceu Noriler
Dirceu Noriler
Faculdade de Engenharia Química, Universidade Estadual de Campinas
Bestätigte E-Mail-Adresse bei feq.unicamp.br
Titel
Zitiert von
Zitiert von
Jahr
An alternative for the collection of small particles in cyclones: Experimental analysis and CFD modeling
E Balestrin, RK Decker, D Noriler, J Bastos, HF Meier
Separation and purification technology 184, 54-65, 2017
962017
Experiments and CFD-based erosion modeling for gas-solids flow in cyclones
TA Sedrez, RK Decker, MK da Silva, D Noriler, HF Meier
Powder technology 311, 120-131, 2017
702017
Cyclone optimization by COMPLEX method and CFD simulation
OL Sgrott Jr, D Noriler, VR Wiggers, HF Meier
Powder Technology 277, 11-21, 2015
612015
A new role for reduction in pressure drop in cyclones using computational fluid dynamics techniques
D Noriler, AA Vegini, C Soares, AAC Barros, HF Meier, M Mori
Brazilian Journal of Chemical Engineering 21, 93-101, 2004
482004
Nanoscale mixing during double-flame spray synthesis of heterostructured nanoparticles
HK Grossmann, T Grieb, F Meierhofer, MJ Hodapp, D Noriler, A Gröhn, ...
Journal of Nanoparticle Research 17, 1-16, 2015
412015
Thermal fluid dynamics analysis of gas–liquid flow on a distillation sieve tray
D Noriler, HF Meier, AAC Barros, MRW Maciel
Chemical Engineering Journal 136 (2-3), 133-143, 2008
412008
Simultaneous momentum, mass, and energy transfer analysis of a distillation sieve tray using CFD techniques: prediction of efficiencies
D Noriler, AAC Barros, MRW Maciel, HF Meier
Industrial & engineering chemistry research 49 (14), 6599-6611, 2010
402010
Influence of atomization and spray parameters on the flame spray process for nanoparticle production
D Noriler, CD Rosebrock, L Madler, HF Meier, U Fritsching
Atomization and Sprays 24 (6), 2014
342014
Modelling polydisperse nanoparticle size distributions as produced via flame spray pyrolysis
PB Neto, F Meierhofer, HF Meier, U Fritsching, D Noriler
Powder technology 370, 116-128, 2020
282020
Combustion kinetic analysis of flame spray pyrolysis process
PB Neto, L Buss, F Meierhofer, HF Meier, U Fritsching, D Noriler
Chemical Engineering and Processing-Process Intensification 129, 17-27, 2018
282018
Gas-solid flow in a ring-baffled CFB riser: Numerical and experimental analysis
V Rossbach, J Utzig, RK Decker, D Noriler, C Soares, WP Martignoni, ...
Powder technology 345, 521-531, 2019
262019
Numerical gas-solid flow analysis of ring-baffled risers
V Rossbach, J Utzig, RK Decker, D Noriler, HF Meier
Powder technology 297, 320-329, 2016
262016
Experimental and numerical evaluation of slugs in a vertical air–water flow
J Jaeger, CM Santos, LM Rosa, HF Meier, D Noriler
International Journal of Multiphase Flow 101, 152-166, 2018
232018
Investigation of atomization concepts for large‐scale flame spray pyrolysis (FSP) Untersuchung von Zerstäubungskonzepten für erhöhte Produktionsraten der Flammensprühpyrolyse (FSP)
F Meierhofer, M Hodapp, L Achelis, L Buss, D Noriler, HF Meier, ...
Materialwissenschaft und Werkstofftechnik 45 (8), 765-778, 2014
202014
Development of a new micromixer “elis” for fluid mixing and organic reactions in millidevices
HS Santana, JL Silva Jr, AGP da Silva, AC Rodrigues, RL Amaral, ...
Industrial & Engineering Chemistry Research 60 (25), 9216-9230, 2021
172021
Impact of co‐flow on the spray flame behaviour applied to nanoparticle synthesis
L Buss, F Meierhofer, P Bianchi Neto, H França Meier, U Fritsching, ...
The Canadian Journal of Chemical Engineering 97 (2), 604-615, 2019
162019
Sensibility study of the Reynolds stress model parameters for swirling flows in cyclones
E Balestrin, RD Luciano, D Noriler, RK Decker, HF Meier
Chemical Engineering Transactions 43, 2015
152015
Numerical validation of a coaxial and confined jet flow
RK Decker, L Buss, VR Wiggers, D Noriler, E Reinehr, H Meier, ...
Chem. Eng. Trans 24, 1459-1464, 2011
152011
Impact of reaction chamber geometry on the particle-residence-time in flame spray process
L Buss, D Noriler, U Fritsching
Flow, Turbulence and Combustion 105 (4), 1055-1086, 2020
142020
A solution for a heat transfer model in a moving bed through the self-adjoint operator method
HF Meier, D Noriler, SL Bertoloi
Latin American applied research 39 (4), 327-336, 2009
142009
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