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Javier Sánchez Prieto

Profesor contratado doctor. Área de Organización Industrial y Electrónica., UNIR - Universidad Internacional de La Rioja

Ingeniero Químico y Doctor en Ingeniería Mecánica. Más de 10 años de experiencia docente e investigadora en las áreas de Máquinas y Motores Térmicos y Mecánica de Fluidos. Autor de más de 10 publicaciones científicas en revistas del JCR relacionadas con la tecnología de fluidización, la gasificación de biomasa, los procesos de mezclado gas-sólido y las energías renovables.

Experience

  • 2018–present
    Associate professor, UNIR - Universidad Internacional de La Rioja

Education

  • 2015 
    Universidad Carlos III de Madrid, Doctor en Ingeniería Mecánica y Organización Industrial
  • 2010 
    Universidad Carlos III de Madrid, Máster en Ingeniería Térmica y Fluidos
  • 2009 
    Universidad Complutense de Madrid, Ingeniero Químico

Publications

  • 2018
    Powder Technology, Lateral solids meso-mixing in pseudo-2D fluidized beds by means of TFM simulations
  • 2017
    Chemical Engineering Journal, Experimental study on the characteristic mixing time of solids and its link with the lateral dispersion coefficient in bubbling fluidized beds
  • 2016
    Advanced Powder Technology, Development of an empirical wall-friction model for 2D simulations of pseudo-2D bubbling fluidized beds
  • 2015
    Chemical Engineering Journal, Maldistribution detection in bubbling fluidized beds
  • 2015
    Chemical Engineering Journal, Stagnant regions estimation in fluidized beds from bed surface observations
  • 2014
    Journal of Process Control, Feedback PID-like fuzzy controller for pH regulatory control near the equivalence point
  • 2014
    Chemical Engineering Science, Wide band energy analysis of fluidized bed pressure fluctuation signals using a frequency division method
  • 2014
    Powder Technology, The effect of temperature on the distributor design in bubbling fluidized beds
  • 2013
    Chemical Engineering Science, Experimental quantification of the particle-wall frictional forces in pseudo-2D gas fluidised beds
  • 2013
    Applied Thermal Engineering, Moving bed syngas conditioning: Modelling
  • 2013
    Journal of Nanoparticle Research, A settling tube to determine the terminal velocity and size distribution of fluidized nanoparticle agglomerates

Research Areas

  • Heat And Mass Transfer Operations (091505)
  • Fluidisation And Fluid Mechanics (091504)
  • Computational Fluid Dynamics (091501)
  • Energy Generation, Conversion And Storage Engineering (091305)
  • Powder And Particle Technology (090406)