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Schwingungen in Wärmeübertrager-Rohrbündeln

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VDI-Wärmeatlas

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8 Literatur

  1. Blevins, R. D.: Flow-induced vibration. 2. Aufl. New York: Van Nostrand Reinhold 1990.

    Google Scholar 

  2. Chen, S. S.: Flow-induced vibration of circular cylindrical structures. Washington, DC (USA): Hemisphere Publ. 1987.

    Google Scholar 

  3. Gelbe, H., M. Jahr u. K. Schroder: Flow-induced vibrations in heat exchanger tube bundels. Chem. Eng. and Proc. 34 (1995) S. 289/298.

    Google Scholar 

  4. Gasch, R., u. K. Knothe: Strukturdynamik. Bd. 2: Kontinua und ihre Diskretisierung. Berlin: Springer Verl. 1989.

    Google Scholar 

  5. Gelbe, H., U. Mohr u. K. Schröder: Schwingungen in Wärmeübertrager-Rohrbündeln. Computerprogramm „Good Vibration“ nach VDI-Wärmeatlas, 9. Aufl., Kap. Oc. TU Berlin 2002.

    Google Scholar 

  6. Jahr, M.: Einflüsse von Strukturparametern und Strömungsverteilung auf das Schwingverhalten mit Luft angeströmter Rohrbündel. Diss. TU Berlin 1995.

    Google Scholar 

  7. Yeh, Y. S., u. S. S. Chen: Vibration of component cooling water heat exchangers. ASME PVP Conf., Nashville, Tennessee (USA). 189 (1990) S. 153/164.

    Google Scholar 

  8. Gorman, D. J.: Exact analytical solutions for free vibration of steam generator U-tubes. J. Pressure Vessel Technol. 110 (1988) 11, S. 422/429.

    Google Scholar 

  9. Standards of Tubular Exchanger Manufactures Association. 7. Aufl. TEMA, New York 1987.

    Google Scholar 

  10. AD-Merkblatt B5: Ebene Böden und Platten nebst Verankerungen. Berlin: Beuth Verl. 1991.

    Google Scholar 

  11. AD-Merkblatt S3/7: Berücksichtigung von Wärmespannungen bei Wärmeaustauschern mit festen Rohrplatten. Berlin: Beuth Verl. 1991.

    Google Scholar 

  12. Parker, R.: Acoustic resonances in passages containing banks of heat exchanger tubes. J. Sound and Vibration 57 (1978) S. 245/260.

    Article  Google Scholar 

  13. Ziada, S., A. Oengören u. E. T. Bühlmann: On acoustical resonance in tube arrays. Part I: Experiments. J. Fluids and Structures 3 (1989) S. 293/314.

    Google Scholar 

  14. Blevins, R. D.: Formulas for natural frequency and mode shape. New York: Van Nostrand Reinhold 1979.

    Google Scholar 

  15. Pettigrew, M. J., H. G. D. Goyder et al.: Damping of multispan heat exchanger tubes. Part I: In gases. ASME PVP Conf., Chicago, Ill. (USA). 104 (1986) S. 81/87.

    Google Scholar 

  16. Pettigrew, M. J., R. J. Rogers u. F. Axisa: Damping of multi-span heat exchanger tubes. Part II: In liquids. ASME PVP Conf., Chicago, Ill. (USA). 104 (1986) S. 89/98.

    Google Scholar 

  17. Connors, H. J.: An experimental investigation of the flow-induced vibration of tube arrays in cross-flow. Ph.D. Thesis, Univ. of Pittsburgh, Pa. (USA) 1970.

    Google Scholar 

  18. Andjelić, M.: Stabilitätsverhalten querangeströmter Rohrbündel mit versetzter Dreiecksteilung. Diss. Univ. Hannover 1988.

    Google Scholar 

  19. Andjelić, M., u. K. Popp: Stability effects in a normal triangular cylinder array. J. Fluids and Structures 3 (1989) S. 165/185.

    Google Scholar 

  20. Chen, S. S., u. J. A. Jendrzejczek: Stability of tube arrays in cross-flow. Nuclear Engng. and Design 75 (1982) S. 351/373.

    Google Scholar 

  21. Weaver, D. S., u. J. A. Fitzpatrick: A review of flow-induced vibration in heat exchangers. Proc. Int. Conf. on Flow-Induced Vibrations. Bowness-on-Windermere (Großbritannien) 1987. A1 (1987) S. 1/17.

    Google Scholar 

  22. Pettigrew, M. J., u. C. E. Taylor: Fluid-elastic instability of heat exchanger tube bundles. Review and design recommendations. Proc. Int. Conf. Inst. Mech. Eng. on Flow-Induced Vibration. Brighton (Großbritannien) 1991. C 416/015 (1991) S. 349/368.

    Google Scholar 

  23. Gelbe, H., u. K. Schröder: Bestimmung der fluidelastischen Instabilität in querangeströmten Rohrbündeln. Chem.-Ing.-Techn. 70 (1998) 1/2, S. 80/88.

    Google Scholar 

  24. Schröder, K., u. H. Gelbe: New design recommendations for fluid-elastic instability in heat exchanger tube bundles. J. Fluids and Structures 13 (1999) 3, S. 361/379.

    Google Scholar 

  25. Troidl, H.: Strömungsinduzierte Schwingungen querange-strömter Rohrbündel bei versetzter und fluchtender Rohranordnung. Diss. TU. München 1986.

    Google Scholar 

  26. Chen, S. S., u. J. A. Jendrzejczyk: Experiments on fluid instability in tube banks subjected to liquid cross-flow. J. Sound and Vibration 78 (1981) 3, S. 355/381.

    Article  Google Scholar 

  27. Yeung, H. C., u. D. C. Weaver: The effect of approach flow direction on the flow-induced vibrations of a triangular tube array. ASME J. Mech. Design 105 (1983) S. 76/82.

    Google Scholar 

  28. Axisa, F., B. Villard et al: Vibration of tube bundles subjected to air-water and steam-water cross-flow. Preliminary results on fluid-elastic instability. Proc. ASME Symp. on flow-induced vibrations. New Orleans, La. (USA) 1984. 2 (1984) S. 269/284.

    Google Scholar 

  29. Ulbrich, R., u. D. Mewes: Vertical, upward gas-liquid two-phase flow across a tube bundle. Int. J. Multiphase Flow 20 (1994) 2, S. 249/272.

    Article  Google Scholar 

  30. Feenstra, P., R. L. Judd u. D. S. Weaver: Fluid-elastic instability in a tube array subjected to two-phase R-11 cross-flow. ASME PVP Conf. on Flow-Induced Vibration. Hawaii (USA). 298 (1995) S. 13/27.

    Google Scholar 

  31. Mann, W., u. F. Mayinger: Flow-induced vibration of tube bundles subjected to single-and two-phase cross-flow. Proc. 2nd Int. Conf. on Multiphase Flow. Kyoto (Japan) 1995. 4 (1995) S. 9/15 (s. auch Mann, W.: Schwingungsanregungen in Rohrbündeln durch Dichteschwankungen in Dampf-Flüssigkeits-Strömungen. Fortschr.-Ber. VDI, Reihe 6, Nr. 359. Düsseldorf: VDI-Verl. 1997).

    Google Scholar 

  32. Feenstra, P., D. S. Weaver u. R. L. Judd: Modelling two-phase flow-excited fluid-elastic instability in tube arrays. Proc. 7th Int. Conf. on Flow-Induced Vibration. FIV 2000, Luzern (Schweiz) 2000. Hrsg.: S. Ziada, T. Staubli. Rotterdam (Niederlande): Balkema 2000, S. 545/554.

    Google Scholar 

  33. Pettigrew, M. J., J. H. Tromp et al.: Vibration of tube bundles in two-phase cross-flow. Part 1: Hydrodynamic mass and damping. Part 2: Fluid-elastic instability. Trans. ASME J. Pressure Vessel Technol. 111 (1989) S. 466/487.

    Google Scholar 

  34. Pettigrew, M. J., C. E. Taylor et al.: Vibration of tube bundles in two-phase Freon cross-flow. ASME PVP Conf. on Flow-Induced Vibration. Minneapolis, Minn. (USA). 273 (1994) S. 211/226.

    Google Scholar 

  35. Pettigrew, M. J., u. C. E. Taylor: Two-phase flow-induced vibration: An overview. J. Pressure Vessel Technol. 116 (1994) S. 233/253.

    Article  Google Scholar 

  36. Taylor, C. E., u. M. Pettigrew: Effect of flow regime and void fraction on tube bundle vibration. Proc. 7th Int. Conf. on Flow-Induced Vibration. FIV 2000, Luzern (Schweiz) 2000. Hrsg.: S. Ziada, T. Staubli. Rotterdam (Niederlande): Balkema 2000, S. 529/536.

    Google Scholar 

  37. Pettigrew, M. J., C. E. Taylor u. B. S. Kim: The effect of tube bundle geometry on vibration in two-phase cross-flow. Proc. 7th Int. Conf. on Flow-Induced Vibration. FIV 2000, Luzern (Schweiz) 2000. Hrsg.: S. Ziada, T. Staubli. Rotterdam (Niederlande): Balkema 2000, S. 561/568.

    Google Scholar 

  38. Ziada, S., u. A. Oengören: Acoustic and tube resonances in tube bundles. Ber. Nr. SAK\TB92-63. Sulzer Innotec, Winterthur (Schweiz) 1992.

    Google Scholar 

  39. Oengören, A., u. S. Ziada: Unsteady fluid forces acting on a square tube bundle in air cross-flow. ASME Int. Symp. on Flow-Induced Vibration and Noise. Anaheim, Ca. (USA). 1 (1992) S. 55/74.

    Google Scholar 

  40. Oengören, A., u. S. Ziada: Vortex shedding, acoustic resonance and turbulent buffeting in normal triangular tube arrays. 6th Int. Conf. on Flow-Induced Vibration. London 1995. Hrsg.: P. Bearman. Rotterdam (Niederlande): Balkema 1995, S. 295/313.

    Google Scholar 

  41. Axisa, F., J. Antunes et al.: Random excitation of heat exchanger tubes by cross-flow. Flow-induced vibration of cylinder arrays in cross-flow. ASME Publ. Nr. G442 (1988), S. 23/46 (s. auch Axisa, F.: Random excitation of heat exchanger tubes by two-phase cross-flow. Proc. Int. Symp. on Flow-Induced Vibration. Anaheim, Ca. (USA) 1992.1 (1992) S. 119/140).

    Google Scholar 

  42. Romberg, O.: Zum Turbulenzeinfluß auf das Schwingungsverhalten querangeströmter Rohrbündel. Fortschr.-Ber. VDI, Reihe 11, Nr. 267. Düsseldorf: VDI-Verl. 1998.

    Google Scholar 

  43. Taylor, C. E., u. M. J. Pettigrew: Random excitation forces in heat exchanger tube bundles. ASME PVP Conf. on Flow-Induced Vibration. Boston, Mass. (USA) 1999. 389 (1999) S. 35/42.

    Google Scholar 

  44. Au-Yang, M. K.: Joint and cross acceptances for cross flow-induced vibration. Part I and II. ASME PVP Conf. on Flow-Induced Vibration. Boston, Mass. (USA) 1999. 389 (1999) S. 17/33.

    Google Scholar 

  45. Weaver, D. S.: Vortex shedding and acoustic resonance in heat exchanger tube arrays. Technology for the 90s, Kap. 6. ASME Publ., New York 1993, S. 776/810.

    Google Scholar 

  46. Ziada, S., U. Bolleter u. Y. N. Chen: Vortex shedding and acoustic resonance in a staggered-yawed array of tubes. ASME Symp. on Flow-Induced Vibrations 1984. Hrsg.: M. P. Païdoussis et. al. 2 (1984) S. 227/242.

    Google Scholar 

  47. Oengören, A., u. S. Ziada: Flow periodicity and acoustic resonance in parallel triangular tube bundles. ASME AD 53-2. 4th Int. Symp. on Fluid-Structure Interactions, Aeroelasticity, Flow-Induced Vibration and Noise. Dallas, Texas (USA) 1997. II (1997) S. 183/192 (s. auch Ziada, S. u .A. Oengören: Flow periodicity... J. Fluids and Structures 14 (2000) S. 197/219).

    Google Scholar 

  48. Pettigrew, M. J., u. D. J. Gorman: Vibration of heat exchange components in liquid and two-phase cross-flow. Proc. BNES, Int. Conf. on Vibration of Nuclear Plants. Keswick (Großbritannien) 1978. Ber. 2.3, 1978.

    Google Scholar 

  49. Polak, D. R., u. D. S. Weaver: Vortex shedding in normal triangular tube arrays. ASME PVP Conf. on Flow-Induced Vibration. Minneapolis, Minn. (USA). 273 (1994) S. 145/156.

    Google Scholar 

  50. Weaver, D. S., u. H. C. Yeung: The effect of tube mass on the flow-induced response of various tube arrays in water. J. Sound and Vibration 93 (1984) S. 409/425.

    Article  Google Scholar 

  51. Zukauskas, A., u. V. Katinas: Flow-induced vibrations in heat exchanger tube banks. IUTAM Symp. on Practical Experiences with Flow-Induced Vibrations. Karlsruhe 1979. Hrsg.: E. Naudascher, D. Rockwell. Berlin: Springer Verl. 1980.

    Google Scholar 

  52. Weaver, D. S., H. Y. Lian u. X. Y. Huang: Vortex shedding in rotated square tube arrays. J. Fluid and Structures 7 (1993) S. 107/121.

    Google Scholar 

  53. Ziada, S., u. A. Oengören: Vorticity shedding and acoustic resonance in an in-line tube bundle. Part I: Vorticity shedding. J. Fluids and Structures 6 (1992) 3, S. 271/292.

    Google Scholar 

  54. Ziada, S., u. A. Oengören: Vortex shedding in an in-line tube bundle with large tube spacings. J. Fluids and Structures 7 (1993) S. 661/687.

    Google Scholar 

  55. Baylac, G., D. Bai u. J. P. Gregoire: Study of flow and acoustic phenomena in a tube bank. Proc. UKAEA/NPL Int. Symp. on Vibration Problems in Industry. Keswick (Großbritannien) 1973. Ber. 219, 1973, S. 1/36.

    Google Scholar 

  56. Rae, G. J., u. J. S. Wharmby: Strouhal numbers for in-line tube arrays. Proc. BHRA Int. Conf. on Flow Induced Vibrations. Bowness-on-Windermere (Großbritannien) 1987. Ber. E4, 1987, S. 233/242.

    Google Scholar 

  57. Clasen, P., u. R. Gregorig: Ein Schwingungskriterium eines querangeströmten Rohres. Teil 4: Schwingversuche in einem fluchtenden Rohrbündel. Chem.-Ing.-Techn. 43 (1971) S. 982/985.

    Article  Google Scholar 

  58. Grotz, B. J., u. F. R. Arnold: Flow-induced vibrations in heat exchangers. Rep. Nr. 31, AD 104568. Dept. of Mech. Eng., Stanford Univ., Ca. (USA) 1956.

    Google Scholar 

  59. Pettigrew, M. J., u. D. J. Gorman: Vibration of heat exchanger tube bundles in liquid and two-phase cross-flow. Flow-induced vibration design guidelines. Hrsg.: P. Y. Chen. ASME PVP, 52 (1981) S. 89/110.

    Google Scholar 

  60. Pettigrew, M. J.: Flow-induced vibration phenomena in nuclear power station components. Power Ind. Res. 1 (1981) S. 97/133.

    Google Scholar 

  61. Ziada, S., A. Oengören u. E. T. Bühlmann: On acoustical resonance in tube arrays. Part I: Experiments. J. Fluids and Structures 3 (1989) 3, S. 293/314.

    Google Scholar 

  62. Oengören, A., u. S. Ziada: Vorticity shedding and acoustic resonance in an in-line tube bundle. Part II: Acoustic resonance. J. Fluids and Structures 6 (1992) 3, S. 293/309.

    Google Scholar 

  63. Chen, Y. N.: Flow-induced vibration and noise in tube bank heat exchangers due to von Karman streets. ASME J. Engng. Ind. 90 (1968) S. 134/146.

    Google Scholar 

  64. Chen, Y. N., u. W. C. Young: Damping capability of tube banks against vortex-excited sonic vibration. ASME J. Engng. Ind. 96 (1974) S. 1072/1075.

    Google Scholar 

  65. Fitzpatrick, J. A.: A design guide proposal for avoidance of acoustic resonances in in-line heat exchangers. ASME J. Vibration, Acoustics Stress and Reliability in Design 108 (1986) S. 296/300.

    Google Scholar 

  66. Ziada, S., A. Oengören u. E. T. Bühlmann: On acoustical resonance in tube arrays. Part II: Damping criteria. J. Fluids and Structures 3 (1989) 3, S. 315/324.

    Google Scholar 

  67. Eisinger, F. L., R. E. Sullivan u. J. T. Francis: A review of acoustic vibration criteria compared to inservice experience with steam generator in-line tube banks. ASME Int. Symp. on Flow-Induced Vibration and Noise. Anaheim, Ca. (USA). 4 (1992) S. 81/95.

    Google Scholar 

  68. Eisinger, F. L., J. T. Francis u. R. E. Sullivan: Prediction of acoustic vibration in steam generator and heat exchanger tube banks. ASME PVP Conf. on Flow-Induced Vibration. Minneapolis, Minn. (USA). 273 (1994) S. 67/83.

    Google Scholar 

  69. Connors, H. J.: Fluidelastic vibration of heat exchanger tube arrays. ASME J. Mech. Design 100 (1978) S. 347/353.

    Google Scholar 

  70. Goyder, H. G. D.: A practical method for assessing tube vibration in heat exchangers. ASME Int. Symp. on Flow-Induced Vibration and Noise. Anaheim, Ca. (USA). (HTD-Bd. 230/NE-Bd. 9). 1 (1992) S. 237/260.

    Google Scholar 

  71. Mohr, U., u. H. Gelbe: Influence of the geometry in tube bundle heat exchangers on the velocity distribution and the vibration excitation. ASME PVP Conf. on Flow-Induced Vibration. Boston, Mass. (USA). 389 (1999) S. 1/8 (s. auch Mohr, U. u. H. Gelbe: Velocity distribution and vibration excitation in tube bundle heat exchangers. Int. J. Thermal Sci. 39 (2000) S. 414/421).

    Google Scholar 

  72. Mohr, U.: Einfluß von Geometrie und Geschwindigkeitsverteilung auf die Schwingungsanregung von Rohrbündel-Wärmeübertragern. Fortschr.-Ber. VDI, Reihe 11, Nr. 304. Düsseldorf: VDI-Verl. 2001

    Google Scholar 

  73. Mohr, U., K. Schröder u. H. Gelbe: The effect of approach flow direction on the fluid-elastic instability of tubes in triangular tube arrays. Proc. 7th Int. Conf. on Flow-Induced Vibration. FIV 2000, Luzern (Schweiz) 2000. Hrsg.: S. Ziada, T. Staubli. Rotterdam (Niederlande): Balkema 2000, S. 481/488.

    Google Scholar 

  74. Leyh, T.: Strömungsinduzierte Rohrbündelschwingungen in einem gasdurchströmten realen Wärmeübertrager. Diss. TU Berlin 1993.

    Google Scholar 

  75. Pettigrew, M. J., M. Yetisir et al.: Prediction of vibration and fretting-wear damage: An energy approach. ASME PVP Conf. on Flow-Induced Vibration. Boston, Mass. (USA) 1999. 389 (1999) S. 283/290 (s. auch S. 273/282).

    Google Scholar 

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(2006). Schwingungen in Wärmeübertrager-Rohrbündeln. In: VDI-Wärmeatlas. VDI Buch. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-32218-4_109

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