2.2.6. References

[Codina_1993]

  1. Codina “A discontinuity capturing crosswind dissipation for the finite element solution of the convection diffusion equation”, Comp. Meth. Appl. Mech. Eng., pages 110:325-342, 1993.

[García_1999]

  1. García, “A Finite Element Method for the Hydrodynamic Analysis of Naval Structures” (in Spanish), Ph.D. Thesis, Univ. Politécnica de Cataluña, Barcelona, December 1999.

[Hirsch_1991]

  1. Hirsch “Numerical computation of internal and external flows”, John Wiley and Sons Ltd., Chichester, UK, 1991.

[Kleinstreuer_1997]

  1. Kleinstreuer “Engineering Fluid Dynamics, An Interdisciplinary Systems Approach”, Cambridge University Press, Cambridge, UK, 1997.

[Oñate_1999]

  1. Oñate “A stabilized finite element method for incompressible viscous flows using a finite increment calculus formulation. Research report No. 150”, CIMNE, Barcelona, January 1999.

[García_1998]

García, J., Oñate, E., Sierra, H., Sacco, C. and Idelsohn, S. “A Stabilized Numerical Method for Analysis of Ship Hydrodynamics”. Proceedings Eccomas Conference on CFD, 7-11 September 1998, Athens, John Wiley, 1998.

[Oñate_2000]

  1. Oñate, M. Manzan, “Stabilization techniques for finite element analysis of convection-diffusion problems”, Publication CIMNE No. 183, Barcelona, February 2000.

[Zienkiewicz_1989]

O.C. Zienkiewicz, T.L.Taylor “The finite element method”. McGrawHill Book Company, Volume 1, Maidenhead, UK, 1989.

[Oñate_1998]

  1. Oñate, J. García and S. Idelsohn, “On the stabilisation of numerical solutions of advective-diffusive transport and fluid flow problems”. Comp.Meth. Appl. Mech. Engng, 5, 233-267, 1998.

[Bardina_1997]

J.E. Bardina, P.G. Huang and T.J. Coakley, “Turbulence Modelling Validation, Testing, and Development”. NASA technical Memorandum 110446, Moffett Field, California, April 1997.

[Wilcox_1993]

D.C. Wilcox “Turbulence Modelling for CFD”. DCW industries, Inc. 5354 Palm Drive, La Cañada, California, 1993.

[Vázquez_1999]

  1. Vázquez, R. Codina and O.C. Zienkiewicz “Numerical modelling of Compressible Laminar and Turbulent Flow: The CBS Algorithm”. Monograph CIMNE Nº 50, Barcelona, April 1999.

[García_2003]

  1. García-Espinosa and E. Oñate. “An Unstructured Finite Element Solver for Ship Hydrodynamics”. Jnl. Appl. Mech. Vol. 70: 18-26. (2003).

[Oñate_2004]

  1. Oñate, J. García-Espinosa y S. Idelsohn. “Ship Hydrodynamics”. Encyclopedia of Computational Mechanics. Eds. E. Stein, R. De Borst, T.J.R. Hughes. John Wiley & Sons (2004).

[Zienkiewicz_1995]

O.C. Zienkiewicz and Codina, R., “A general algorithm for compressible and incompressible flow. Part I, The Split, Characteristic Based Scheme”, Int. Journ. Num. Meth. Fluids, 20, 869-885 (1995).

[Soto_2001]

  1. Soto, R. Lohner, J Cebral. An Implicit Monolithic Time Accurate Finite Element Scheme for Incompressible Flow Problems. 15th AIAA Computational Fluid Dynamics Conference. Anaheim (USA) 2001.

[García_2005]

  1. García-Espinosa, E. Oñate and J. Bloch Helmers. “Advances in the Finite Element Formulation for Naval Hydrodynamics Problems”. International Conference on Computational Methods in Marine Engineering (Marine 2005). June 2005. Oslo (Norway).

[García_2008]

  1. García-Espinosa, A. Valls and E. Oñate. “ODDLS: A new unstructured mesh finite element method for the analysis of free surface flow problems”. Int. Jnl. Num. Meth. Engng. 76(9): 1297-1327 (2008).

[Siegel_1992]

  1. Siegel and J.R. Howell. “Thermal radiation heat transfer”. Hemisphere Publishing Corporation, Washington DC, 1992.

[Modest_2003]

M.F. Modest. “Radiative heat transfer”. McGraw Hill, 2003.

[Lienhard_2008]

J.H. Lienhard. “A heat transfer text book”. Phlogiston Press, Cambridge 2008.