213
[1] A.Agostinelli, D.Nobels, C.R.Mockridge, “An Experimental Investigation of Radial
Thrust in Centrifugal Pumps”, Transactions of the ASME, pag. 120-126, Aprile 1960
[2] J.S.Alford, “Protecting Turbomachinery From Self-Excited Rotor Whirl”, Journal of Engineering for Power, pag. 333-344, Ottobre 1965
[3] M.Antonelli, M.Salsa, “Corso di Telecomunicazioni”,Hoepli, Milano, 2001
[4] “Balance Quality Requirements of Rotating Rigid Bodies”; Part 1, “Determination
and Verification of Balance Tolerance”, ISO 1940-1, CD, 1998; Part 2, “Balance Errors”, ISO 1940-2, 1998
[5] “Balancing Vocabulary”, ISO 1925-1990; Amendment 1, 1995, Draft Amendment 2, 1999; Final Draft International Standard (FDIS) ISO 1925-2000
[6] J.S.Bendat, A.G.Piersol, “Random Data: Analysis and Measurement Procedures”, Wiley-Interscience, New York, 2000
[7] A.Bhattacharyya, “Internal Flows and Force Matrices in Axial Flow Inducers”, Ph.D. Thesis, California Institute of Technology, 1994
[8] H.F.Biheller, “Radial Force on the Impeller of Centrifugal Pumps with Volute,
Semivolute, and Fully Concentric Casings”, Journal of Engineering for Power, pag.
319-323, Luglio 1965
[9] H.F.Black, “Lateral Stability and Vibrations of High Speed Centrifugal Pump Rotors”, International Union of Theoretical and Applied Mechanics, Dynamics of Rotors Symposium, 1974
[10] C.E. Brennen, “Cavitation and Bubble Dynamics”, Oxford University Press, 1995 [11] C.E. Brennen, “Hydrodynamics of Pumps”, Oxford University Press, 1994
[12] D.R.Brown, H.F.Black, “Limit Cycles of a Flexible Shaft with Hydrodynamic Bearings
in Unstable Regimes”, First workshop on Rotordynamic Instability Problems in
High-Performance Turbomachinery, 1980
[13] A.Cervone, et al, “Experimental Characterization of Cavitation Instabilities in a Two
Bladed Axial Inducer”, AIAA, 2006
[14] A.Cervone, “Progetto Costruttivo Definitivo di un Impianto di Prova in Similitudine
di Turbopompe Cavitanti” ”, Tesi di Laurea in Ingegneria Aerospaziale, Università di
214
[15] D.W.Childs, “Finite-Length Solutions for Rotordynamic Coefficients of Turbulent
Annular Seals”, ASME Journal of Lubrication Technology, Vol.105, pag. 437-444,
Luglio 1983
[16] D.Childs, “Turbomachinery Rotordynamics” John Wiley & Sons, 1993
[17] J.Colding-Jorgensen, “Effect of Fluid Forces on Rotor Stability of Centrifugal
Compressors and Pumps”, First workshop on Rotordynamic Instability Problems in
High-Performance Turbomachinery, 1980
[18] G.T.Csanady, “Radial Forces in a Pump Caused by Volute Casing”, ASME Journal of
Engineering for Power, Vol.84, pag. 337-340, Ottobre 1962
[19] L.d’Agostino, et al, “A Reduced Order Model for Preliminary Design and
Performance Prediction of Tapered Inducers”, 12th Int. Symp. On Transport Phenomena and Dynamics of Rotating Machinery, Honolulu, Haway, USA, 2008 [20] L.d’Agostino, et al, “A Reduced Order Model for Preliminary Design and
Performance Prediction of Tapered Inducers: Comparison with Numerical Simulations”, AIAA Paper 5119, 44th AIAA/ASME/SAE/ASEE Joint Propulsion Conf. and Exhibit, CT, USA, 2008
[21] L.d’Agostino, et al, “On the Preliminary Design and Noncavitating Performance of
Tapered Axial Inducers”, ASME J. of Fluids Engineering, Vol.130, Is. 11, 2008
[22] L.D’Agostino, et al, “The Different Role of Cavitation on Rotordynamics Whirl
Forces in Axial Inducers and Centrifugal Impellers”, CISM Courses and Lectures No.
496, Int Centre for Mechanical Sciences, Springer, Vien and New York, 2007
[23] J.Del Valle, et al, “The Effect of Inlet Flow Modification on Cavitating Inducer
Performance”, ASME J. Turbomachinery, 1992
[24] U.Domm, P.Hergt, “Radial Forces on Impeller of Volute Casing Pumps, Flow
Research on Blading”, Elsevier Pub.Co., pag. 305-321, 1970
[25] H.E.Doyle, “Field Experiences with Rotordynamic Instability in High-Performance
Turbomachine”, First workshop on Rotordynamic Instability Problems in
High-Performance Turbomachinery, NASA Conf. Pub. 2133, 1980
[26] A.B.Duncan, “Vibrations in Boiler Feed Pumps: a Critical Review of Experimental
and Service Experience”, Mechanical Engineering., pag. 55-64, 1966
[27] F.Ehrich, S.D.Childs, “Self-Excited Vibrations in High Performance Turbomachinery”, Mechanical Engineering, pag. 66-79, Maggio 1984
[28] F.F.Ehrich, “The Influence of Trapped Fluids on High Speed Rotor Vibration”, ASME Journal of Engineering for Industry, pag. 806-812, Novembre 1967
[29] H.W.Emmons, C.E.Pearson, H.P.Grant, “Compressor Surge and Stall Propagation”, ASME, 1955
215
[30] N.Enomoto, et al, “Suppression of Cavitation Surge of a Helical Inducer Occurring in
Partial Flow Condition”, CAV2003, 2003
[31] R.J.Franz, “Experimental Investigation of the Effect of Cavitation on the
Rotordynamic Forces on a Whirling Centrifugal Pump Impeller”, Ph.D. Thesis,
California Institute of Technology, 1989
[32] Fujii, Akira, et al, “Higher Order Rotating Cavitation in an Inducer”, Honolulu, USA, ISROMAC, 2002
[33] A.Furukawa, et al, “Experimental Estimate of Helical Inducer Blade Forces in
Cavitation Surge Condition”, Pasadena, USA, CAV2001, 2001
[34] D.C.Goggin, “Field Experiences with Rub Induced Instabilities in Turbo-machinery”, Second workshop on Rotordynamic Instability Problems in High-Performance Turbomachinery, NASA Conf. Pub. 2250, 1982
[35] B.Grabowski, “Shaft Vibrations in Turbomachinery Excited by Cracks”, Second workshop on Rotordynamic Instability Problems in High-Performance Turbomachinery, NASA Conf. Pub. 2250, 1982
[36] E.M.Greitzer, “The Stability of Pumping Systems – The 1980 Freeman Scholar
Lecture”, ASME Journal of Fluids Engineering, , Vol.103, pag. 193-242, Giugno 1981
[37] E.J.Gunter, H.Springer, R.Humphris, “Influence of Unbalance on the Stability
Characteristics of Flexible Rotor Bearing Systems”, ASME Applied Mechanics,
Bioengineering and Fluids Engineering Conference, 1983
[38] C.M.Harris, A.G.Piersol, “Harris’Shock and Vibration Handbook”, McGraw-Hill, New York, 2002
[39] T.Hashimoto, et al, “Rotating Cavitation in Three and Four Bladed Inducers”, Seattle, USA, AIAA, 1997
[40] P.Hergt, P.Krieger, “Radial Forces in Centrifugal Pumps with Guide Vanes”, Proc.Inst. of Mechanical Engineers, Vol.184, pag. 101-107, 1969-1970
[41] T.Iwatsubo, R.Kawai, N.Kagawa, T.Kakiuchi, K.Takahara, “Analysis of Dynamic
Characteristics of Fluid Force Induced by Labyrinth Seal”, Third workshop on
Rotordynamic Instability Problems in High-Performance Turbomachinery, NASA Conf. Pub. 2338, 1984
[42] B.Jery, “Experimental Study of Unsteady Hydrodynamic Force Matrices on Whirling
Centrifugal Pump Impellers”, Ph.D. Thesis, California Institute of Technology, 1987
[43] H.Josephs, R.L.Huston, “Dynamics of Mechanical Systems”, Crc Press, Boca Raton, pag. 513-537, 2002
[44] K.Kamjio, et al, “An Experimental Investigation of Cavitating Inducer Instability”, ASME, 1977
216
[45] A.L.Kimball Jr., “Internal Friction Theory of Shaft Whirling”, General Electric Review, Vol.27, pag. 244-251, Aprile 1924
[46] O.W.K.Lee, M.Martinez-Sanchez, E.Czajkowski, “Prediction of Force Coefficients for
Labyrinth Seals”, Third workshop on Rotordynamic Instability Problems in
High-Performance Turbomachinery, NASA Conf. Pub. 2338, 1984
[47] S.Leiblein, “Experimental Flow in Two Dimensional Cascades”, NASA SP-36, 1965 [48] M.Luise, G.M.Vitetta, “Teoria dei Segnali”, McGraw-Hill, Milano, 1999
[49] J.W.Lund, “Stability and Damped Critical Speeds of a Flexible Rotor in Fluid-Film
Bearings”, Journal of Engineering for Industry, pag. 509-517, Maggio 1974
[50] E.Makay, O.Szamody, “Survey of Feed Pump Outages”, Electric Power Research Institute, Report FP-754, 1978
[51] O.Matsushita, M.Takagi, K.Kikuchi, M.Kaga, “Rotor Vibration Caused by External
Excitation and Rub”, Second workshop on Rotordynamic Instability Problems in
High-Performance Turbomachinery, NASA Conf. Pub. 2250, 1982
[52] R.B.McMillan, “Rotating Machinery Practical Solutions to Unbalance and
Misalignment”, The Fairmont Press, Lilbum, pag. 43-95, 2004
[53] A.Milani, “Progetto e Realizzazione di un Impianto per Prove Rotodinamiche su
Turbopompe”, Tesi di Laurea in Ingegneria Aerospaziale,Università di Pisa,
2001-2002
[54] P.Miloro, “Caratterizzazione parametrica delle prestazioni ed instabilità di induttori
cavitanti”, Tesi di Laurea in Ingegneria Aerospaziale, Università di Pisa, 2008-2009
[55] H.Murai, “Observations of Cavitation and Flow Patterns in an Axial Flow Pump at
Low Flow Rates”, Mem. Inst. High Speed Mech., Tohoku University, 24, No.246,
1968
[56] A.Muszynska, “Rotordynamics”, Crc Press, Boca Raton, pag. 711-736, 2005
[57] D.E.Newland, “An Introduction to Random Vibrations and Spectral Analysis”, Longman, London, 1975
[58] D.Norfield, “Practical Balancing of rotating”, Elsevier, Oxford, 2006
[59] G.Pace, “Caratterizzazione Sperimentale di Induttori Cavitanti e del Sistema di
Misura delle Forze Rotodinamiche”,Tesi di Laurea in Ingegneria Aerospaziale,
Università di Pisa, 2008-2009
[60] C.R. Peterson, P.G. Hill, “Mechanics and Thermodynamics of Propulsion”, Addison – Wesley, 1992
[61] E.Raposelli, et al, “Thermal Effects on Cavitation Instabilities in Helical Inducers”, AIAA, 2004
217
[62] W.Rosenmann, “Experimental Investigations of Hydrodynamically Induced Shaft
Forces with a Tree Bladed Inducer”, ASME Symp. on Cavitation in Fluid Machinary,
pag. 172-195, 1965
[63] R.H. Saberski, A.J. Acosta, E.G. Hauptmann, “Fluid flow: a First Course in Fluid
Mechanics”, MacMillan, 1971
[64] N.Saggini, “Sistema di Misura delle Forze non Stazionarie su Giranti di Turbopompe
Cavitanti”, Tesi di Laurea in Ingegneria Aerospaziale, Università di Pisa, 2002-2003
[65] Subbaraman, Maria e Patton, Marc, “Suppressing Higher Order Cavitation
Phenomena in Axial Inducers”, Wageningen, CAV2006, 2006
[66] G.P.Sutton, “Rocket Propulsion Elements”, John Wiley & Sons, 2001
[67] R.Testa, “Studio Sperimentale delle Instabilità Fluidodinamiche di Cavitazione su un
Induttore Commerciale e sul MK1 della Turbopompa LOX di Ariane 5”, Tesi di
Laurea in Ingegneria Aerospaziale, Università di Pisa, 2002-2003
[68] H.J.Thomas, “Unstable Oscillations of Turbine Rotors Due to Steam Leakage in the
Clearance of the Sealing Glands and the Buckets”, Bulletin Scientifique, A.J.M.,
Vol.71, 1958
[69] W.E.Thompson, “Fluid Dynamic Excitation of Centrifugal Compressor Rotor
Vibrations”, Journal of Fluid Engineering, Vol.100, pag. 73-78, Marzo 1978
[70] L.Torre, “Studio Sperimentale delle Prestazioni e delle Instabilità Fluidodinamiche di
Cavitazione su un Prototipo dell’Induttore della Turbopompa LOX del Motore Vinci”, Tesi di Laurea in Ingegneria Aerospaziale, Università di Pisa, 2003-2004
[71] Y.Tsujimoto, et al, “A Theoretical Analysis of Rotating Cavitation in Inducers”, Journal of Fluid Engineering, 1993
[72] Y.Tsujimoto, et al, “Backflow from Inducer and Its Dynamics”, Houston, ASME,2005 [73] Y.Tsujimoto, et al, “Observation of Oscillating Cavitation of an Inducer”, ASME,
1997
[74] Y.Tsujimoto, et al, “Simple Rules for Cavitating Instabilities in Turbomachinery”, CAV2001, 2001
[75] K.Urlichs, “Clearance-Flow Generated Transverse Forces at the Rotors of Thermal
Turbomachines”, NASA TM-77292, Translation of Doctoral Dissertation, Technical
University of Munich, 1975
[76] J.M.Vance, F.J.Laudadio, “Experimental Measurement of Alford’s Force in Axial
Flow Turbomachinery”, Second workshop on Rotordynamic Instability Problems in
218
[77] J.C.Wachel, F.R.Szenasi, “Field Verification of Lateral-Torsional Coupling Effects on
Rotor Instabilities in Centrifugal Compressors”, First workshop on Rotordynamic
Instability Problems in High-Performance Turbomachinery, 1980
[78] R.Wohlrab, “Experimental Determination of Gap Flow-Induced Forces at Turbine
Stages and Their Effect on the Running Stability of Simple Rotors”, NASA
TM-77293, Translation of Doctoral Dissertation, Technical University of Munich, 1975 [79] Y.Yoshida, et al, “Influence of Thermodynamics Effect on Synchronous Rotating
Cavitation”, CAV2006, 2006
[80] Y.Yoshida, et al, “Thermodynamics Performance of a Tapered Axia Inducer:
Comparison with Analytical Prediction”, AIAA, 2009
[81] T.Zoladz, “Observation on Rotating Cavitation and Cavitation Surge from the
