Lilian de Martín

Forskarassistent vid Kemi och kemiteknik/ Kemiteknik/ Kemisk Apparatteknik

Mer information på den engelska sidan

  1. Wu, K., de Martín, L., and Coppens, M.-O. Pattern formation in pulsed gas-solid fluidized beds – The role of granular solid mechanics. Chem Eng J, 2017;
  2. Wu, K., de Martín, L., Mazzei, L., and Coppens, M.-O. Pattern formation in fluidized beds as a tool for model validation: a two-fluid model based study. Powder Technol, 2016; 295: 35.
  3. De Martín, L., Bouwman,W.G., and van Ommen, J.R. Multidimensional nature of fluidized nanoparticle agglomerates. Langmuir, 2014; 30 (42): 12696.
  4. De Martín, L., Fabre, A., and van Ommen, J.R. The fractal scaling of fluidized nanoparticle agglomerates. Chem Eng Sci, 2014; 112 (14): 79.
  5. Kuijpers, K.R., de Martín, L., and van Ommen, J.R. Optimizing off lattice diffusion-limited aggregation. Comp Phys Comm, 2014; 185 (3): 841.
  6. De Martín, L., Sánchez-Prieto, J., Hernández-Jiménez, F., and van Ommen, J.R. A settling tube to determine the terminal velocity and size distribution of fluidized nanoparticle agglomerates. J Nano Res, 2014; 16 (1): 2183.
  7. De Martín, L. and van Ommen, J.R. A model to estimate the size of nanoparticle agglomerates in gas-solid fluidized beds. J Nano Res, 2013; 15 (11): 2055.
  8. Tahmasebpoor, M., de Martín, L., Talebi, M., Mostoufi, N., and van Ommen J.R. The role of the hydrogen bond in dense nanoparticle-gas suspensions. Phys Chem Chem Phys, 2013; 15 (16): 5788.
  9. De Martín, L. and van Ommen, J.R. Estimation of the overall mass flux in inclined standpipes by means of pressure fluctuation measurements. Chem Eng J, 2012; 204-206: 125.
  10. De Martín, L., van den Dries, K., and van Ommen, J.R. Comparison of three different methodologies of pressure signal processing to monitor fluidized–bed dryers/granulators. Chem Eng J, 2011; 172 (1): 487.
  11. De Martín L., Briongos J.V., Aragón J.M., and García-Hernando, N. Detecting regime transitions in gas-solid fluidized beds from low frequency accelerometry signals. Powder Technol, 2011; 207 (1–3): 104.
  12. Castilho, G.J., Cremasco, M.A., de Martín, L., and Aragón, J.M. Experimental fluid dynamics study in a fluidized bed by deterministic chaos analysis. Particul Sci Technol, 2011; 29(2): 179.
  13. De Martín L., Briongos J.V., Aragón J.M., and Palancar M.C. Can low frequency accelerometry replace pressure measurements for monitoring gas-solid fluidized beds? Chem Eng Sci, 2010; 65 (13): 4055.
  14. Aragón J.M., Palancar M.C., and de Martín L. Releases modelling in reservoir. Chem Eng T, 2010; 19: 261.

  1. De Martín, L. and van Ommen, J.R. Chapter: Reactors: idealized chemical reactors. In: Biomass, a sustainable energy source for the future. Fundamentals of conversion processes.Eds. W. de Jong and J.R. van Ommen. Wiley, 2014.

Publicerad: to 24 aug 2017.