Bibliografia
180
Bibliografia
[1] IAEA-TECDOC-1322, November 2002, “Decommissioning cost of
WWER-440 Nuclear Power Plants”
[2] NEA/NSC/DOC(2002), April 2002, “VVER-1000 Coolant Transient
Benchmark- Final Specification”
[3] L.M. Davies, International Journal of Pressure Vessels and Piping 76 (1999) 163–208,”A comparison of western and eastern nuclear
reactor pressure vessel steels”
[4] NEA/OECD, March 2004, “VVER-1000 Coolant Transient
benchmark (V1000CT) Volume II: Specifications of the VVER-1000 Vessel Mixing Problems”
[5] “Investigation of the loop flow mixing in the reactor vessel of Kozloduy Unit 6”, Technical report, Kozloduy NPP, August 1992.
[6] Thermal hydraulic tests of Kozloduy Unit 6, Technical report, Kozloduy NPP, 1993.
[7] Programme for the investigation of loop flow mixing in the reactor vessel of Kozloduy Unit 6”, Kozloduy NPP, 1991
[8] “Investigation of the loop flow mixing in the reactor vessel of Kalinin Unit 1”, Kalinin NPP, 1985
Bibliografia
181 [9] Comini G., “Fondamenti di Termofluidodinamica Computazionale”.
Unione Termotecnica Italiana (UIT), SGT Editoriale, 2001.
[10] D. C. Wilcox: “Turbulence Modeling for CFD”. DCW Industries, Inc., La Canada, California, 1998.
[11] J.O. Hinze: “Turbolence”. McGraw Pubblishing Co.. New York, 1975.
[12] B. E. Launder and D. B. Spalding: “Lectures in Mathematical Models
of Turbulence”. Academic Press, London, England, 1972.
[13] D. Choudhury: “Introduction to the Renormalization Group Method
and Turbulence Modeling”. Fluent Inc. Technical Memorandum
TM-107, 1993.
[14] F. R. Menter: “Two-Equation Eddy-Viscosity Turbulence Models for
Engineering Applications”. AIAA Journal, 32(8):1598-1605, August
1994.
[15] M. M. Gibson and B. E. Launder: “Ground Effects on Pressure
Fluctuations in the Atmospheric Boundary Layer”. J. Fluid Mech.,
86:491-511, 1978.
[16] B. E. Launder: “Second-Moment Closure: Present... and Future?”. Inter. J. Heat Fluid Flow, 10(4):282-300, 1989.
[17] B. E. Launder, G. J. Reece, and W. Rodi: “Progress in the
Development of a Reynolds-Stress Turbulence Closure”. J. Fluid
Bibliografia
182 [18] C.G. Speziale, S. Sarkar, T.B. Gatski: “Modelling the Pressure-Strain
Correlation of Turbolence: an Invariant Ddynamical Systems Approach”. J. Fluid Mech., 277:245-272, 1991.
[19] H. Grotjans e F.R. Menter: “Wall Functions for General Application
CFD Codes”. In K.D. Papailiou et al., ECCOMAS 98 Proceedings of
the Fourth European CFD Conference, 1112-1117. John Wiley & Sons, 1998.
[20] T.J. Barth e D.C. Jesperson: “ The Design and Application of Upwind
Schemes on Unstructured Meshes”. AIAA Paper 89-0366, 1989.
[21] C.M. Rhie e W.L. Chow: “A Numerical Study of the Turbolent Flow
Past an Isolated Airfoil with Trailing Edge Separation”. AIAA
Paper82-0998, 1982.
[22] U. Bieder e G. Fauchet. “Simulation of mixing effects in a VVER-1000
reactor”. 11th International Topical Meeting on Nuclear Reactor Thermal-Hydraulics (NURETH-11). Popes’ Palace Conference Center, Avignon, France, October 2-6, 2005.
[23] J.H. Ferziger e M. Peric. “Computational Methods for Fluid