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Flow-Induced Vibration Handbook for Nuclear and Process Equipment

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Flow-Induced Vibration Handbook for Nuclear and Process Equipment
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Flow-Induced Vibration Handbook for Nuclear and Process Equipment: краткое содержание, описание и аннотация

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Explains the mechanisms governing flow-induced vibrations and helps engineers prevent fatigue and fretting-wear damage at the design stage Fatigue or fretting-wear damage in process and plant equipment caused by flow-induced vibration can lead to operational disruptions, lost production, and expensive repairs. Mechanical engineers can help prevent or mitigate these problems during the design phase of high capital cost plants such as nuclear power stations and petroleum refineries by performing thorough flow-induced vibration analysis. Accordingly, it is critical for mechanical engineers to have a firm understanding of the dynamic parameters and the vibration excitation mechanisms that govern flow-induced vibration.
Flow-Induced Vibration Handbook for Nuclear and Process Equipment Helps readers understand and apply techniques for preventing fatigue and fretting-wear damage due to flow-induced vibration at the design stage Covers components including nuclear reactor internals, nuclear fuels, piping systems, and various types of heat exchangers Features examples of vibration-related failures caused by fatigue or fretting-wear in nuclear and process equipment Includes a detailed overview of state-of-the-art flow-induced vibration technology with an emphasis on two-phase flow-induced vibration Covering all relevant aspects of flow-induced vibration technology,
is required reading for professional mechanical engineers and researchers working in the nuclear, petrochemical, aerospace, and process industries, as well as graduate students in mechanical engineering courses on flow-induced vibration.

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13 Pettigrew, M.J. and Taylor, C.E., 1997, “Damping of Heat Exchanger Tubes in Two‐Phase Flow,” Proceedings, 4th International Symposium on FSI, AE & FIV+N, ASME International Congress, Dallas, Texas, November 16‐21, AD‐Vol 53.2, pp. 407–418.

14 Pettigrew, M.J., Platten, J.L. and Sylvestre, Y., 1973, “Experimental Studies on Flow‐Induced Vibration to Support Steam Generator Design, Part II: Tube Vibration Induced by Liquid Cross‐Flow in the Entrance Region of a Steam Generator,” International Symposium on Vibration Problems in Industry, Keswick, UK, April.

15 Pettigrew, M.J., Sylvestre, Y. and Campagna, A.O., 1978, “Vibration Analysis of Heat Exchanger and Steam Generator Designs,” Nuclear Engineering and Design, 48, pp. 97–115.

16 Pettigrew, M.J., Goyder, H.G.D., Qiao, Z.L. and Axisa, F., 1986, “Damping of Multispan Heat Exchanger Tubes, Part 1: In Gases,” Symposium on Special Topics of Structural Vibration, 104, ASME PVP Conference, Chicago, pp. 81–88.

17 Pettigrew, M.J., Taylor, C.E. and Kim, B.S., 1989a, “Vibration of Tube Bundles in Two‐Phase Cross‐Flow: Part 1, Hydrodynamic Mass and Damping,” ASME Journal of Pressure Vessel Technology, 111, pp. 466–477.

18 Pettigrew, M.J., Tromp, J.H., Taylor, C.E. and Kim, B.S., 1989b, “Vibration of Tube Bundles in Two‐Phase Cross‐Flow: Part 2, Fluidelastic Instability,” ASME Journal of Pressure Vessel Technology, 111, pp. 478–487.

19 Pettigrew, M.J., Carlucci, L.N., Taylor, C.E. and Fisher, N.J., 1991, “Flow-Induced Vibration and Related Technologies in Nuclear Components,” Nuclear Engineering and Design, 131, pp. 81–100.

20 Pettigrew, M.J., Taylor, C.E. and Yasuo, A., 1994, “Vibration Damping of Heat Exchanger Tube Bundles in Two‐Phase Flow,” Pressure Vessel Research Council Bulletin WRC 389, pp. 1–41.

21 Pettigrew, M.J., Taylor, C.E., Jong, J.H. and Currie, I.G., 1995, “Vibration of a Tube Bundle in Two‐Phase Freon Cross Flow,” ASME Journal of Pressure Vessel Technology, 117, pp. 321–329.

22 Pettigrew, M.J., Yetisir, M., Fisher, N.J., Smith, B.A.W. and Taylor, C.E., 1999, “Prediction of Vibration and Fretting‐Wear Damage: An Energy Approach,” Proceedings, ASME‐PVP Symposium on Flow‐Induced Vibration ‐ 1999, Boston, USA, August 1‐5, PVP‐Vol. 389, pp. 283–290.

23 Pettigrew, M. J., Rogers, R. J. and Axisa, F., 2011, “Damping of Heat Exchanger Tubes in Liquids: Review and Design Guidelines,” Journal of Pressure Vessel Technology, 133, 014002‐1‐11.

24 Pietralik, J.M., 1995, “Thermal‐Hydraulic Analysis of Steam Generators: Application of the THIRST Code to Vibration Analysis,” Session 3.1, Proceedings of the 16th Annual Conference of the Canadian Nuclear Society, Vol. II, Saskatoon, Saskatchewan, June 4‐7.

25 Rogers, R.J., Taylor, C.E. and Pettigrew, M.J., 1984, “Fluid Effects on Multispan Heat Exchanger Tube Vibration,” Proceedings of the ASME Pressure Vessels and Piping Conference, San Antonio, Texas, June, ASME Publication H00316: Topics in Fluid Structure Interaction, pp. 17–26.

26 Taylor, C.E. and Pettigrew, M.J., 1998, “Guidelines for Random Excitation Forces due to Cross Flow in Steam Generators,” Third International Steam Generator and Heat Exchanger Conference, Canadian Nuclear Society, Toronto, Canada, June 21‐25, pp. 752–763.

27 Taylor, C.E. and Pettigrew, M.J., 2000, “Random Excitation Forces in Heat Exchanger Tube Bundles,” Journal of Pressure Vessel Technology, 122, pp. 509–514.

28 Taylor, C.E., Currie, I.G., Pettigrew, M.J. and Kim, B.S., 1989, “Vibration of Tube Bundles in Two‐Phase Cross‐Flow: Part 3, Turbulence‐Induced Excitation,” ASME Journal of Pressure Vessel Technology, 111, pp. 488–500.

29 Taylor, C.E., Boucher, K.M. and Yetisir, M., 1995, “Vibration and Impact Forces Due to Two‐Phase Cross Flow in U‐Bend Regions of Nuclear Steam Generators,” Proceedings of the 6th International Conference on Flow‐Induced Vibration, London, UK, April 10‐12, pp. 401–411.

30 Taylor, C.E., Pettigrew, M.J., and Currie, I.G., 1996, “Random Excitation Forces Acting on Tube Bundles Subjected to Two‐Phase Cross Flow,” Journal of Pressure Vessel Technology, 118, pp. 265–277.

31 Weaver, D.S., Fitzpatrick, J.A. and El Kashlan, M., 1987, “Strouhal Numbers for Heat Exchanger Tube Arrays in Cross Flow,” Journal of Pressure Vessel Technology, 109, pp. 219–223.

32 Yetisir, M. and Fisher, N.J., 1996, “Fretting‐Wear Prediction in Heat Exchanger Tubes: The Effect of Chemical Cleaning and Modelling Ill‐Defined Support Conditions,” Proceedings, ASME‐PVP Symposium on Flow‐Induced Vibration ‐ 1996, Montreal, Canada, July 21‐26, PVP‐Vol. 328, pp. 359–368.

33 Yetisir, M., McKerrow, E. and Pettigrew, M.J., 1998, “Fretting‐Wear Damage of Heat Exchanger Tubes: A Proposed Criterion Based on Tube Vibration Response,” Journal of Pressure Vessel Technology, 120, No. 3, pp. 297–305.

34 Ziada, S., Oengoren, A. and Buhlmann, E.T., 1989, “On Acoustical Resonances in Tube Arrays Part II: Damping Criteria,” Journal of Fluids and Structures, 3, pp. 315–324.

Note

1 1Inconel and Incoloy are registered trademarks of International Nickel Company.

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