Serviços

Laboratórios

Dirceu Noriler


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DEPro - Departamento de Engenharia de Processos
Área de Concentração: Engenharia de Processos
Telefone: (19) 3521-3923
e-mail:
Lattes: http://lattes.cnpq.br/8866725802072331




Formação
• Bacharel em Engenharia Química pela Universidade Regional de Blumenau (FURB) – 2000.
• Mestre em Engenharia Química pela Universidade Estadual de Campinas (UNICAMP) – 2003.
• Doutorado em Engenharia Química pela Universidade Estadual de Campinas (UNICAMP) – 2007.




Áreas de Interesse
• Fluidodinâmica Computacional
• CFD aplicado à engenharia de processos químicos.
• Escoamentos multifásicos reativos.
• Desenvolvimento de processos de produção de nanopartículas e nanomateriais.
• Desenvolvimento e aperfeiçoamento de processos de refino de petróleo.




Publicações Selecionadas
• Venturi, D. N.; Martignoni, W. P.; Noriler, D.; Meier, H. F.; Numerical Investigation of Air/Water and Hydrogen/Diesel Flow across Tube Bundles with Baffles. Journal of Fluids Engineering (in Press), 2017.

• Balestrin, E.; Decker, R. K.; Noriler, D.; Bastos, J. C. S. C.; Meier, H. F.; An alternative for the collection of small particles in cyclones: experimental analysis and CFD modeling. Separation and Purification Technology (Print), v. 184, p. 54-65, 2017.

• Sedrez, T. A.; Decker, R. K.; Silva, M. K.; Noriler, D.; Meier, H. F.; Experiments and CFD-based erosion modeling for gas-solids flow in cyclones. Powder Technology (Print), v. 311, p. 120-131, 2017.

• Rossbach, V.; Utzig, J.; Decker, R. K.; Noriler, D.; Meier, H. F.; Numerical gas-solid flow analysis of ring-baffled risers. Powder Technology (Print), v. 297, p. 320-329, 2016.

• Cardozo, F. A. R.; Almeida, R. A.; Rezende, R. V. P.;Meier, H. F.; Noriler, D.; Guerra, H. P.; Cabral, V. F.; Cardozo-Filho, L.; Evaluation of Changes in Physicochemical Properties in a Supercritical Antisolvent (SAS) Process Using 3D Turbulent CFD Approach. The Journal of Supercritical Fluids, v. 107, p. 349-357, 2016.

• Sgrott, O. L.; Noriler, D.; Wiggers, V. R.; Meier, H. F.; Cyclone optimization by COMPLEX method and CFD simulation. Powder Technology (Print), v. 277, p. 11-21, 2015.

• Grossmann, H. K.; Grieb, T.; Meierhofer, F.; Hodapp, M. J.; Noriler, D.; Gröhn, A.; Meier, H. F.; Fritsching, U.; Wegner, K.; Mädler, L.; Nanoscale mixing during double-flame spray synthesis of heterostructured nanoparticles. Journal of Nanoparticle Research, v. 17: 174, 2015.

• Ricardo, G. A. N.; Noriler, D.; Martignoni, W. P.; Meier, H. F.; Application of Euler-Lagrange Approach to Predict the Droplet Solidification in a Prilling Tower. Industrial & Engineering Chemistry Research, v. 54, p. 9615-9626, 2015.

• Cardoso, F. A. R.; Rezende, R. V. P.; Almeida, R. A.; Cabral, V. F.; Zanoelo, E. F.; Noriler, D.; Meier, H. F.; Cardozo-Filho, L.; A model for precipitation of sub-micrometric particles of PHBV poly(3-hydroxybutyrate-co-3-hydroxyvalerate) by supercritical assisted-atomization. The Journal of Supercritical Fluids, v. 97, p. 88-99, 2015.

• Rosebrock, C.; Mädler, L.; Meier, H. F.; Fritching, U.; Influence of Atomization and Spray Parameters on the Flame Spray Process for Nanoparticle Production.. Atomization and Sprays, v. 24, p. 495-524, 2014.

• Meierhofer, F.; Hodapp, M.; Achelis, L.; Buss, L. ; Noriler, D.; Meier, H. F.; Fritsching, U.; Investigation of atomization concepts for large-scale flame spray pyrolysis (FSP). Materialwissenschaft und Werkstofftechnik, v. 45, p. 765-778, 2014.

• Noriler, D.; Barros, A. A. C.; Maciel, M. R. W.; Meier, H. F.; Simultaneous Momentum, Mass, and Energy Transfer Analysis of a Distillation Sieve Tray Using CFD Techniques: Prediction of Efficiencies. Industrial & Engineering Chemistry Research, v. 49, p. 6599-6611, 2010.

• Noriler, D.; Meier, H. F.; Barros, A. A. C.; Maciel, M. R. W.; Thermal fluid dynamics analysis of gas-liquid flow on a distillation sieve tray. Chemical Engineering Journal (1996), v. 136, p. 133-143, 2008.

• Noriler, D.; VEGINI, A. A.; Soares, C.; Barros, A. A. C.; Meier, H. F.; Mori, M.; A new role for reduction in pressure drop in cyclones using computational fluid dynamics techniques. Brazilian Journal of Chemical Engineering (Print), v. 21, p. 93-101, 2004.