Francisco Avelino Silva Freitas

Assistant Professor

Short CV

Academic degrees: PhD in Chemical Engineering, (January 2000, Faculdade de Engenharia da Universidade do Porto ): Cyclic Adsorption Processes: Application to Propane/Propylene Separation. MSc in Chemical Engineering (July 1992, Universidad Simón Bolívar): Modelaje de la Distribución de Sólidos en la Sección Cónica de Columnas de Burbujeo Trifásicas. Chemical Engineering (July 1989).

Professional occupations: 2003 to present    Assistant Professor    Aveiro University ;  2000 to 2003    Invited Assistant Professor  Aveiro University ; 1998 to 1999   Teaching Assistant  University of Porto ; 1995 to 1999    Researcher/Ph.D. Student    University of Porto; 1993 to 1994    Laboratory Coordinator of Transport Phenomena Section, Laboratory “A”    Simón Bolívar University ; 1992 to 1994    Assistant Professor    Simón Bolívar University ; 1990 to 1992    Researcher/MSc. Student    Simón Bolívar University; 1990 to 1991 Technical Consulter    Soteiven, Hysim (Old Hysys Process Simulator); July-September, 1987    Short Stage    MARAVEN, S.A., Caracas

Scientific interests

Teaching Activity

Teaching of fluid mechanics, modeling and simulation of chemical processes, advanced control and chemical engineering laboratories.

Selected Publications

  • Da Silva, F. A., Silva, J.A.C. e Rodrigues, A.E. “A General Package for the Simulation of Cyclic Adsorption Process´´, New Developments in Adsorption Process Design & Simulations, Los Angeles AIChE Meeting, (1997).
  • Davesac, R. R., Pinto, L. T., Da Silva, F. A., Ferreira, L. M. and Rodrigues, A. E., “A package for thermal parametric pumping adsorptive processes”, Chemical Engineering Journal,76(2), 115-125, (2000).
  • Da Silva, Francisco A. and Rodrigues, A. E., “Vacuum Swing Adsorption for Propylene/Propane Separation with 4A Zeolite”, Ind. Eng. Chem. Res., 40, 5758-5774, (2001).
  • Silva, Carlos M., Lito, P.F., Neves, P.S., Da Silva, F.A., PID Controller Design based on Transient Response Experiment. Chemical Engineering Education, Vol.42, No.2, Spring (2008).
  • Da Silva F., Francisco A., Thermolib: A middleware library for performing thermodynamic calculations, Thermodynamics 2009, Imperial College, London, UK, pág. 77, September 23-25, (2009).
  • Passos, C. P.; Coimbra, M. A.; Da Silva, F. A.; Silva, C. M., “Modelling the Supercritical Fluid Extraction of Edible Oils and Analysis of the Effect of Enzymatic Pre-treatments of Seed upon Model Parameters”, Chemical Engineering Research and Design (2010), http://dx.doi.org/10.1016/j.cherd.2010.12.008, 89(7),1118-1125.
  • Magalhães, A. L.; Da Silva, F. A.; Silva, C. M. “New models for tracer diffusion coefficients of hard sphere and real systems: Application to gases, liquids and supercritical fluids”, J. of Supercritical Fluids, 55, (2011) 898-923 http://dx.doi.org/10.1016/j.supflu.2010.09.031
  • Silva, Sandra L.; Silva, Artur M. S.; Ribeiro, Jorge C.; Martins, Fernando G.; Da Silva, Francisco A.; Silva, Carlos M. Chromatographic and spectroscopic analysis of heavy crude oil mixtures with emphasis in nuclear magnetic resonance spectroscopy: A review. Analytica Chimica Acta, 707(1-2), (2011), 18-37. http://dx.doi.org/10.1016/j.aca.2011.09.010

Projects

Publications

Solubility of carbon dioxide in encapsulated ionic liquids

Lemus, J; Da Silva, FFA; Palomar, J; Carvalho, PJ; Coutinho, JAP
2018, SEPARATION AND PURIFICATION TECHNOLOGY, 196, 41-46.

Simple and accurate correlations for diffusion coefficients of solutes in liquids and supercritical fluids over wide ranges of temperature and density

Magalhaes, AL; Lito, PF; Da Silva, FA; Silva, CM
2013, JOURNAL OF SUPERCRITICAL FLUIDS, 76, 94-114.

Solid phase microextraction method for characterizing the organic fraction of an industrial brine stream

Lima, JFB; Da Costa, AG; Silva, CM; Da Silva, FA; Mendes, A
2013, DESALINATION AND WATER TREATMENT, 51, 22-24, 4630-4637.

Free-volume model for the diffusion coefficients of solutes at infinite dilution in supercritical CO2 and liquid H2O

Magalhaes, AL; Da Silva, FA; Silva, CM
2013, JOURNAL OF SUPERCRITICAL FLUIDS, 74, 89-104.

Accurate hydrodynamic models for the prediction of tracer diffusivities in supercritical carbon dioxide

Magalhaes, AL; Vaz, RV; Goncalves, RMG; Da Silva, FA; Silva, CM
2013, JOURNAL OF SUPERCRITICAL FLUIDS, 83, 15-27.

Non-ideality and Solubility Modeling of Amino Acids and Peptides in Aqueous Solutions: New Physical and Chemical Approach

Figueiredo, BR; Da Silva, FA; Silva, CM
2013, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 52, 45, 16044-16056.

Tracer diffusion coefficients of polar systems

Magalhaes, AL; Da Silva, FA; Silva, CM
2012, CHEMICAL ENGINEERING SCIENCE, 73, 151-168.

Chromatographic and spectroscopic analysis of heavy crude oil mixtures with emphasis in nuclear magnetic resonance spectroscopy: A review

Silva, SL; Silva, AMS; Ribeiro, JC; Martins, FG; Da Silva, FA; Silva, CM
2011, ANALYTICA CHIMICA ACTA, 707, 1, 18-37.

Modelling the supercritical fluid extraction of edible oils and analysis of the effect of enzymatic pre-treatments of seed upon model parameters

Passos, CP; Coimbra, MA; Da Silva, FA; Silva, CM
2011, CHEMICAL ENGINEERING RESEARCH & DESIGN, 89, 7A, 1118-1125.

New models for tracer diffusion coefficients of hard sphere and real systems: Application to gases, liquids and supercritical fluids

Magalhaes, AL; Da Silva, FA; Silva, CM
2011, JOURNAL OF SUPERCRITICAL FLUIDS, 55, 3, 898-923.

Patents

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