|
REFERENCESBlevins, R. D., Flow-Induced Vibration, Van Nostrand Reinhold, New York, NY (1990).Cantwell, B. and Coles, D., “An Experimental Study of Entrainment and Transport in the Turbulent near Wake of a Circular Cylinder,” Journal of Fluid Mech., 136, pp. 321-374 (1983).Chen, S. S., “Instability Mechanisms and Stability Criteria of a Group of Circular Cylinders Subjected to Cross Flow: Part I, Theory,” Journal of Vibration, Acoustic, Stress and Reliability in Design, 105, pp. 51-58 (1983).Chen, S. S., “Guidelines for the Instability Flow Velocity of Tube Arrays in Cross-Flow,” Journal of Sound and Vibration, 93(3), pp. 439-455 (1984).Chen, S. S., Zhu, S., and Cai, Y., “Experimental of Chaotic Vibration of Loosely Supported Tube Rows in Cross-Flow,” Transactions of the ASME, Journal of Pressure Vessel Technology, 117, pp. 204-212 (1995).Chenoweth, J. M. and Kistler, R. S., “Tube vibrations in Shell-and-Tube Heat Exchangers,” HTRI Report prepared for ERDA (1976).Connors, H. J., “Fluidelastic Vibration of Tube Arrays Excited by Cross Flow,” Paper presented at the Symposium on Flow Induced Vibration in Heat Exchangers, ASME Winter Annual Meeting, New York, (editor, Reiff, D. D.), pp. 42-56 (1970).Connors, H. J., “Fluidelastic Vibration of Heat Exchanger Tube Arrays,” ASME Design Engineering Technical Conference, Chicago, Paper 77-DET-90, pp. 26-30 (1977).Gere, James M. and Timoshenko, Stephen P., Mechanics of Materials, PWS-KENT, Boston, Massachusetts (1990).Gorman, D. J., “Experimental Development of Design Criteria to Limit Liquid Cross-Flow-Induced Vibration in Nuclear Reactor Heat Exchange Equipment,” Nuclear Science and Engineering, 67, pp. 324-336 (1976).Grover, L. K. and Weaver, D. S., “Cross-Flow Induced Vibrations in a Tube Bank-Vortex Shedding,” Journal of Sound and Vibration, 59, pp. 263-276 (1978).Hartlen, R. T., “Recent Field Experience with Flow-Induced Vibration of Heat-Exchanger Tubes,” International Symposium on Vibration Problems in Industry, Keswick, England, Paper 611 (1973).Ichioka, T., Kawata, Y., Nakamura, T., Izumi, H., Kobayashi, T., and Takamatsu, H., “Research on Fluid Elastic Vibration of Cylinder Arrays by Computational Fluid Dynamics (analysis of two cylinders and a cylinder row),” JSME International Journal, Series B, 40, pp.16-24 (1997).Jendrzejczyk, J. A., Chen, S. S., and Wambsganss, M. W., “Dynamic Responses of a Pair of Circular Tubes Subjected to Liquid Cross Flow,” Journal of Sound and Vibration, 67(2), pp. 263-273 (1979).Kassera, V., “Three Dimensional CFD-Analysis of Tube Vibrations Induced by Cross Flow,” 4th International Symposium on Fluid-Structure and Interaction, Aeroelasticity, Flow-Induced Vibration and Noise, ASME AD-Vol. 53-2, Volume II, pp. 137-143 (1997).Kassera, V. and Strohmeier, K., “Experimental Determination of Tube Bundle Vibrations Induced by Cross-Flow,” Proceedings ASME Symposium on Flow-Induced Vibration, New York, (editor, Au-Yang, M. K.), PVP-273, pp. 91-97 (1994).Kassera, V. and Strohmeier, K., “Simulation of Tube Bundle Vibrations Induced by Cross-Flow,” Journal of Fluids and Structures, 11, pp. 909-928 (1997).Kolmogorov, A. N., “Equations of Turbulent Motion of an Incompressible Fluid,” Izvestia Academy of Science, USSR; Physics, 6, Nos. 1 and 2, pp. 56-58 (1942).King, R. and John, D. J., “Wake Interaction Experiments with Two Flexible Circular Cylinders in Flowing Water,” Journal of Sound and Vibration, 45, pp. 259-283 (1976).Kiya, M., Arie, M., Tamura, H., and Mori, H., “Vortex Shedding from Two Circular Cylinders in Staggered Arrangement,” Journal of Fluids Engineering, 102, pp. 166-173 (1980).Lever, J. H. and Weaver, D. S., “On the Stability Behavior of Heat Exchanger Tube Bundles,” Parts I and II, 1984 Symp. on Flow Induced Vibrations, 2, ASME (1984).Marn, J. and Catton, I., “Flow Induced Vibrations in Cylindrical Bundles: Two Dimensional Analysis Into Normal Modes,” Proc. 1991 National Heat Transfer Conference, HTD-165, Minneapolis, MN, pp. 9-14 (1991).Marn, J., and Catton, I., “Analysis of Flow Induced Vibration Using the Vorticity Transport Equation,” Journal of Fluids Engineering, 115, pp. 485-492 (1993).Moffat, R. J., “Describing the uncertainties in experimental results,” Experimental Thermal and Fluid Science, 1, pp.3-17 (1988).Paidoussis, M. P., “Flow-Induced Vibrations in Nuclear Reactor and Heat Exchangers,” Proceedings of the IUTAM-IAHR Symposium on Practical Experiments with Flow-Induced Vibrations, Karlsruhe, Germany, 3-6 (1979).Patankar, S. V., Numerical Heat Transfer and Fluid Flow, Hemisphere, New York (1980).Pettigrew, M. J. and Gorman, D. J., “Vibration of Heat Exchanger Components in Liquid and Two-Phase Cross-Flow,” BNES International Conference on Vibration in Nuclear Plant, Keswick, U.K., Paper 2.3 (1978).Prandtl, L., “Uber ein neues Formelsystem fur die ausgebildete Turbulenz,” Nacr. Akad. Wiss. Gottingen, Math-Phys. Kl., pp. 6-19 (1945).Price, S. J., Paidoussis, M. P., and Giannias, N., “A Generalized Constrained Mode Analysis For Cylinder Arrays in Cross Flows,” 1988 Int. Symp. on Flow Induced Vibrations and Noise, 3, ASME (1988).Sadaoka, N., Kobashi, K., and Umegaki, K., “Analysis of Flow-Induced Vibrations in Piping Systems and Circular Cylindrical Structures,” JSME International Journal, Series B, 41, pp. 221-226 (1998).Schroder, K. and Gelbe, H., “Two- and Three- Dimensional CFD-Simulation of Flow-Induced Vibration Excitation in Tube Bundles,” Chemical Engineering and Processing, 38, pp. 621-629 (1999).Shin, Y. S. and Wambsganss, W. N., “Flow-Induced Vibration in LMFBR Steam Generators,” ANL-75-16, A.N.L. Argonne, Illinois (1975).Soper, B. M. H., “The Effect of Tube Layout on the Fluid Elastic Instability of Tube Bundles in Cross Flow,” ASME Symposium, HTD 9, Flow Induced Heat Exchanger Tube Vibration, Chicago, (editors Chenoweth, J. M. and Stenner, J. R.), pp. 1-9 (1980).Soper, B. M. H., “The Effect of Tube Layout on the Fluid Elastic Instability of Tube Bundles in Cross Flow,” Journal of Heat Transfer, 105, pp. 744-750 (1983).Tanaka, H., “Study on Fluidelastic Vibration of Tube Bundle,” Nihon Kikai Gakkai Ronbunshu (Japan Society of Mechanical Engineering), Section B, 46, pp. 1398-1407 (1980).Tanaka, H., Takahara, S., and Ohta, K., “Flow-Induced Vibration of Tube Arrays with Various Pitch-to-Diameter Ratios,” Journal of Pressure Vessel Technology, 104, pp. 168-174 (1982).Thompson, J. F., Warsi, Z. U. A., and Mastin, C. W., Numerical Grid Generation, North-Holland, Amsterdam (1985).Weaver, D. S. and El-Kashlan, M., “On the Number of Tube Rows Required to Study Cross-Flow Induced Vibrations in Tube Banks,” Journal of Sound and Vibration, 75(2), pp. 265-273 (1981).Weaver, D. S. and Grover, L. K., “Cross-Flow Induced Vibrations in a Tube Bank-Turbulent Buffeting and Fluid Elastic Instability,” Journal of Sound and Vibration, 59, pp. 277-294 (1978).Weaver, D. S. and Yeung, H. C., “Approach Flow Direction Effects on the Cross-Flow Induced Vibrations of a Square Array of Tubes,” Journal of Sound and Vibration, 87(3), pp. 469-482 (1983).Wilcox, D. C., Turbulence Modeling for CFD, CA:DCW Industries Inc., La Canada (1994).Yetisir, M. and Weaver, D. S., “On an Unsteady Theory for Fluidelastic Instability of Heat Exchanger Tube Arrays,” 1988 Int. Symp. on Flow Induced Vibrations and Noise, 3, ASME (1988).Yeung, H. C. and Weaver, D. S., “The Effect of Approach Flow Direction on the Flow-Induced Vibrations of a Triangular Tube Array,” American Society of Mechanical Engineers Journal of Vibration, Acoustics, Stress and Reliability in Design, 105, pp. 76-82 (1983).Zdravkovich, M. M. and Namork, J. E., “Flow Structure within Both Stationary and Vibrating Tube Banks with Triangular Pitch,” Proceedings of the B.N.E.S. Symposium on Vibration in Nuclear Plant, Keswick, U.K., May 1978, Paper 2:5 (1978).Zdravkovich, M. M. and Namork, J. E., “Structure of Interstitial Flow Between Closely Spaced Tubes in Staggered Array,” Proceedings ASME Symposium on Flow Induced Vibrations, (editors Chen S. S. and Bernstein M. D.), pp. 41-46 (1979).Zhu, S., Cai, Y., and Chen, S. S., “Experimental Fluid-Force Coefficients for Wake-Induced Cylinder Vibration,” Journal of Engineering Mechanics, 121(9), pp. 1003-1015 (1995).Zhu, S., Chen, S. S., and Cai, Y., “Vibration and Stability of Two Tubes in Cross-Flow,” Transactions of the ASME, Journal of Pressure Vessel Technology, 119, pp. 142-149 (1997).Zukauskas, A., Ulinskas, R., Katinas, V., and Karni, J., Fluid Dynamics and Flow-Induced Vibrations of Tube Banks, Hemisphere, New York (1988).
|