Aviso: Se está a ler esta mensagem, provavelmente, o browser que utiliza não é compatível com os "standards" recomendados pela W3C. Sugerimos vivamente que actualize o seu browser para ter uma melhor experiência de utilização deste "website". Mais informações em

Warning: If you are reading this message, probably, your browser is not compliant with the standards recommended by the W3C. We suggest that you upgrade your browser to enjoy a better user experience of this website. More informations on


Publicações Link

Artigos em Revistas Internacionais Link

  • J. Janela, J. Guerra, G. Silva, Option Pricing Under a Jump-Telegraph Diffusion Model with Jumps of Random size. International Journal of Computer Mathematics (2019).

  • F. Carapau, J. Janela, P.Correia and S. Vila, Numerical Solvability of a Cosserat Model for the Swirling Motion of a Third-grade Fluid in a Constant Radius Straight Circular Tube International Journal of Applied Mathematics and Statistics, Vol. 57, No. 2, pp. 1-15 (2018).

  • J. Pavlova, A.Fasano, J.Janela, A.Sequeira. Numerical validation of a synthetic cell-based model of blood coagulation, Journal of Theoretical Biology 380, pp. 367-379 (2015).

  • T. Bodnar, M. Pires, J. Janela, Blood flow simulation using traceless variant of Johnson-Segalman viscoelastic model, Math. Model. Nat. Phenom.,Vol. 9, No 6, pp. 117-141 (2014).

  • A. Gambaruto, J. Janela, A, Moura, A. Sequeira., Shear-thinning effects of hemodynamics in patient-specific cerebral aneurysms, Mathematical Biosciences and Engineering, Vol. 10, No 3, pp. 649-665 (2013).

  • F. Carapau, J. Janela, A one-dimensional model for unsteady axisymmetric swirling motion of a viscous fluid in a variable radius straight circular tube, International Journal of Engineering Science, Vol. 72, pp. 107-116 (2013).

  • A. Gambaruto, J. Janela, A. Moura, A. Sequeira. Sensitivity of hemodynamics in a patient-specific cerebral aneurysm to vascular geometry and blood rheology, Mathematical Biosciences and Engineering, Vol. 8, No 2, pp. 409-423 (2011).

  • J. Janela, A. Moura, A. Sequeira. Absorbing boundary conditions for a 3D non-Newtonian fluid-structure interaction model for blood flow, International Journal of Engineering Science, Vol. 48, pp. 1332-1349 (2011).

  • J. Janela, A. Moura, A. Sequeira. A 3D non-Newtonian fluid-structure interaction model for blood flow in arteries, Journal of Computational and Applied Mathematics, Vol. 234, pp. 2783-2791(2010).

  • J. Janela, G. Pontrelli, A. Sequeira, S. Succi, S. Ubertini. Unstructured Lattice-Boltzmann method for hemodynamic flows with shear- dependent viscosity, International Journal of Modern Physics C, Vol. 21, N 6, pp. 795-811 (2010).

  • J. Janela, F.Carapau, A. Sequeira. 1D simulations of second grade fluids with shear-dependent viscosity, Transactions on Mathematics (wseas), Vol. 6, pp. 151-158 (2007).

  • A. Artoli, J. Janela, A. Sequeira. The role of the Womersley number in shear-thinning fluids, Transactions on Fluid Mechanics, 2(1), pp. 133-139 (2006).

  • J. Janela, A. Lefevre, B. Maury. A penalty method for the simulation of fluid - rigid body interaction, ESAIM Proc., Vol. 14, pp. 115-123 (2005).