Artigos selecionados

  • WOLF, F. G.; SIEBERT, D. N.; CARRENO, M. N. P.; LOPES, A. T.; ZABOT, A.; SURMAS, R. Dual-porosity micromodels for studying multiphase fluid flow in carbonate rocks. Lab on a Chip, v. 22, p. 4680-4692, 2022.
  • WOLF, F.G.; SIEBERT, D.N.; SURMAS, R. Influence of the wettability on the residual fluid saturation for homogeneous and heterogeneous porous systems, Physics of Fluids 32, 052008 (2020).
  • ROHWEDER, A.; WOLF, F. G.; LOPES, A. T.; CARRENO, M. N. P.; CARDOSO, L. R.; SIEBERT, D. N.; SURMAS, R. Particle image velocimetry applied to the flow in pore doublets. In: 25th International Congress of Mechanical Engineering, 2019, Uberlandia/MG Brazil.
  • GHISLENI, C.; SIEBERT, D. N.; WOLF, F. G.; SANTOS, L. O. E. Determination of relative permeability curves of digital rocks as function of initial saturation using lattice-Boltzmann method. In: XL Ibero-Latin-American Congress on Computational Methods in Engineering (CILAMCE 2019), 2019, Natal/RN, Brazil.
  • VEGINI, G.L.R.; WOLF, F.G.; SIEBERT, D.N.; SURMAS, R.; CARREÑO, M.N.P.; LOPES, A.T.; MANTOVANI, I.F. Visualization of immiscible displacement in an oil-wet micromodel. In: 16 th Brazilian Congress of Thermal Sciences and Engineering, November 07-10th, 2016, Vitória, ES, Brazil. 
  • SCHMITT, M.; FERNANDES, C. P.; WOLF, F.G.; BELLINI DA CUNHA NETO, J.A.; RAHNER, C.P.; SANTIAGO DOS SANTOS, V. S. Characterization of Brazilian tight gas sandstones relating permeability and Angstrom to micron-scale pore structures. Journal of Natural Gas Science and Engineering, v. 27, p. 785-807, 2015.
  • WOLF, F. G.; SANTOS, L. O. E.; PHILIPPI, P. C. Capillary rise between parallel plates under dynamic conditions. Journal of Colloid and Interface Science (Print), v. 344, p. 171-179, 2010.
  • WOLF, F. G.; SANTOS, L. O. E.; PHILIPPI, P. C. Modeling and simulation of the fluid-solid interaction in wetting. Journal of Statistical Mechanics, v. 6, p. P06008, 2009.
  • WOLF, F. G.; SANTOS, L. O. E.; PHILIPPI, P. C. Micro-hydrodynamics of immiscible displacement inside two-dimensional porous media. Microfluidics and Nanofluidics, v. 4, p. 307-319, 2008.