1.2.10. References

1. E. Oñate and J. García-Espinosa. Finite Element Analysis of Incompressible Flows with Free Surface Waves using a Finite Calculus Formulation. ECCOMAS 2001. Swansea UK 2001.

2. E. Oñate, and J. García-Espinosa, Advanced Finite Element Methods for Fluid Dynamic Analysis of Ships, MARNET-CFD Workshop, Crete, Athens, 2001.

3. E. Oñate, and J. García-Espinosa, A Finite Element Method for Fluid-Structure Interaction with Surface Waves Using a Finite Calculus Formulation, Comput. Methods Appl. Mech. Engrg. 191 (2001) 635-660.

4. E. Oñate and J. García-Espinosa. A methodology for analysis of fluid-structure interaction accounting for free surface waves. European Conference on Computational Mechanics (ECCM99). Munich, Germany, September 1999.

5. O. Soto, R. Löhner, J. Cebral and R. Codina. A Time Accurate Implicit-Monolithic Finite Element Scheme for Incompressible Flow. ECCOMAS 2001. Swansea UK 2001.

6. W. Rodi. Turbulence models and their application in hydraulics – a state of the art review. Institut für Hydromechanik and Sonderforschungsbereich, University of Karlsruhe, Germany, 1980.

7. J. Smagorinsky. General circulation model of the atmosphere. Mon. Weather Rev., 91:99-164, 1963.

8. V.C.Patel, W.Rodi & G.Scheurer, Turbulence models for near-wall and low-Reynolds-number flows: A review, AIAA J, Vol.23, No.9, p1308, (1984)

9. B. Launder and B. Sharma. Application of the Energy Dissipation model of Turbulence to the Calculation of Flow near a Spinning Disk. Letters in Heat and Mass Transfer, vol. 1, no. 2, 1974, pp. 131-138.

10. D. Wilcox. Turbulence Modelling for CFD. DCW Industries, Inc., 5354 Palm Drive, La Cañada, California, 1993.

11. J. Bardina, P. Huang and T. Coakley. Turbulence Modelling Validation, Testing, and Development. NASA Technical Memorandum 110446, April 1997.

12. ERCOFTAC (European Research Community On Flow, Turbulence And Combustion), Best Practice Guidelines for Industrial Computational Fluid Dynamics, United Kingdom, January 2000.

13. International Center for Numerical Methods in Engineering (CIMNE) and COMPASS Ingeniería y Sistemas. GiD The personal pre and postprocessing system. Documentation available at gid.cimne.upc.es or www.compassis.com

14. E. Oñate, A. Valls, J. García. FIC/FEM formulation stabilizing terms for incompressible flows at low and high Reynolds numbers. Comput. Mech. 38:440-455, 2006.

15. J. García, A. Valls, E. Oñate. ODDLS:A new unstructured mesh finite element method for the analysis of free surface flow problems. Int. J. Numer. Meth. Engng. Published online, 2008.

16. R.B.Bird. Useful non-Newtonian models- Annu. Rev. Fluid MEch. 8 (1976)13.

17. P.J.Carreau. Rheological equations from molecular network theories. Trans. Soc. Rheol. 16 (1972)99.

18. M.M.Cross. Rheology of non-Newtonian fluids: a new flow equation for pseudoplastic systems. J.ColloidSci. 20 (1965)417