[1] N. Bachschmid, P. Pennacchi and E. Tanzi, Cracked Rotors: A Survey
on Static and Dynamic Behaviour Including Modelling and Diagnosis,
Springer, Berlin- Heidelberg, 2010.
[2] D. E. Bently and C. T. Hatch, Fundamentals of Rotating Machinery
Diagnostics, Bently Pressurized Bearings Press, Minden, 2002.
[3] C. Cempel, Damage initiation and evolution in operating mechanical
systems, Bulletin of the Polish Academy of Sciences, Technical
Sciences 40(3) (1992), 201-214.
[4] C. Cempel, Multidimensional condition monitoring of mechanical
systems in operation, Mechanical Systems and Signal Processing 17
(2003), 1291-1303.
[5] C. Cempel and M. Tabaszewski, Multidimensional condition
monitoring of the machines in non-stationary operation, Mechanical
Systems and Signal Processing 21 (2007), 1233-1247.
[6] C. Cempel and M. Tabaszewski, Singular spectrum analysis as a
smoothing method of load variability, Diagnostyka 4(56) (2010), 3-8.
[7] T. Gałka, Influence of Turbine Load on Vibration Patterns and
Symptom Limit Value Determination Procedures, Proceedings of the
COMADEM 2001 International Conference, Elsevier, Oxford, (2001),
967-976.
[8] T. Gałka, Normalization of Vibration Measurements: Unnecessary
Complication or Important Prerequisite? Proceedings of the Second
International Symposium on Stability Control of Rotating Machinery
ISCORMA-2, Gdańsk, (2003), 722-731.
[9] T. Gałka, Evolutional Symptoms in Rotating Machinery
Diagnostics, Proceedings of the International Conference
‘Condition Monitoring 2005’, King’s College,
Cambridge, (2005), 255-260.
[10] T. Gałka, Diagnostics of the Steam Turbine Fluid-Flow System
Condition on the Basis of Vibration Trends Analysis, Proceedings of
the 7th European Conference on Turbomachinery, Athens, (2007),
521-530.
[11] T. Gałka, Correlation-Based Symptoms in Rotating Machines
Diagnostics, Proceedings of the 21st International Congress COMADEM
2008, Praha, (2008), 213-226.
[12] T. Gałka, Large Rotating Machines, Encyclopedia of Structural
Health Monitoring, ed., C. Boller, F. Chang and Y. Fujino, John Wiley
& Sons, Chichester, UK, (2009), 2443-2456.
[13] T. Gałka, Application of the Singular Value Decomposition
Method in Steam Turbine Diagnostics, Proceedings of the
CM2010/MFPT2010 Conference, Stratford-upon-Avon, June 22-24, 2010,
Paper no. 107.
[14] T. Gałka and M. Tabaszewski, An application of statistical
symptoms in machine condition diagnostics, Mechanical Systems and
Signal Processing 25 (2011), 253-265.
[15] P. Lampart, M. Szymaniak and R. Kwidziński, Investigation of
circumferential non-uniformity in a partial admission control stage of
a large power turbine, Technical, Economic and Environmental Aspects
of Combined Cycle Power Plants, ed., Z. Domachowski, Gdańsk
University of Technology, (2004), 261-271.
[16] K. F. Martin, A review by discussion of condition monitoring and
fault diagnosis in machine tools, Int. Journal of Machine Tools and
Manufacture 34 (1994), 527-551.
[17] J. Morel, Vibration des Machines et Diagnostic de Leur État
Mécanique, Ed. Eyrolles, Paris, 1992.
[18] H. G. Natke and C. Cempel, Model-Aided Diagnosis of Mechanical
Systems, Springer-Verlag, Berlin-Heidelberg-New York, 1997.
[19] Z. Orłowski, Vibrodiagnostics of Steam Turbines, Proceedings
of the Institute of Power Engineering, Volume 18, Warszawa, 1989 (in
Polish).
[20] Z. Orłowski, A model for operational diagnostics of steam
turbines, Mechanical Systems and Signal Processing 9 (1995),
215-222.
[21] S. Radkowski, Low-energy components of vibroacoustic signal as
the basis for diagnosis of defect formation, Machine Dynamics Problems
12 (1995).
[22] W. Traupel, Thermische Turbomaschinen, Zweiter Band:
Regelverhalten, Festigkeit und Dynamische Probleme, Springer, 1960.