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Compressor System Design and Analysis Chapter 11 447
[10] N. Evans, D. Arnett, T. Allison, N. Poerner, Practical application of AIV analysis methods for
screening, qualification, and redesign of complex piping systems, Proceedings of Inter-Noise,
New York, NY, Institute of Noise Control Engineering, 2012.
[11] R.D. Bruce, A.S. Bommer, T.E. Page, Solving acoustic-induced vibration problems in the
design stage, in: Sound and Vibration, 2013.
[12] V.A. Carucci, R.T. Mueller, Acoustically Induced Piping Vibration in High Capacity Pressure
Reducing Systems, American Society of Mechanical Engineers, New York, 1983.
[13] F.L. Eisinger, Designing piping systems against acoustically induced structural fatigue,
J. Press. Vessel. Technol. 119 (1997) 379–383.
[14] H. Izuchi, M. Nishiuchi, G.Y.H. Lee, Fatigue life estimation of piping system for evaluation of
acoustically induced vibration (AIV), Proceedings of Inter-Noise, Melbourne, Australia, Insti-
tute of Noise Control Engineering, 2014.
[15] A. Ghosh, Y. Niu, R. Arjunan, Difficulties in predicting cycles of failure using finite element
analysis of acoustically induced vibration (AIV) problems in piping systems, Proceedings of
the ASME 2014 Pressure Vessels & Piping Division Conference, PVP2014-28325, July
20–24, Anaheim, CA, 2014.
[16] R. Kurz, R.C. White, Surge avoidance in gas compression systems, J. Turbomach. 126 (2004)
501–506.
[17] J.J. Moore, A. Garcia-Hernandez, M. Blieske, R. Kurz, K. Brun, Transient surge measurements
of a centrifugal compressor station during emergency shutdowns, Proceedings of the 38th Tur-
bomachinery Symposium, Houston, TX, 2009.
[18] A. Garcia-Hernandez, J. Bennett, Tutorial: transient modeling and analysis of centrifugal com-
pressors, Third Middle East Turbomachinery Symposium, February 15–18, 2015, Doha, Qatar,
2015.
[19] R. Kurz, R.C. White, K. Brun, Surge control and dynamic behavior for centrifugal gas com-
pressors, Third Middle East Turbomachinery Symposium, Doha, Qatar, 2015.
[20] W. Ker Wilson, Practical Solution of Torsional Vibration Problems (With Examples
from Marine, Electrical, Aeronautical, and Automobile Engineering Practice), third ed.,
vols. I–IV, John Wiley & Sons Inc., 1956.
[21] American Petroleum Institute (API), API 684 Ed. 2, API Standard Paragraphs Rotordynamic
Tutorial: Lateral Critical Speeds, Unbalance Response, Stability, Train Torsionals, and Rotor
Balancing, 2010.
Further Reading
[22] ASME, ASME PTC 19.3–TW, Thermowells, 2016.

