Abstract
Three element bolted joints consisting of an unstayed tubesheet, sandwiched between two tapered hub flanges, find extensive use in the heat exchanger and pressure vessel industries. For example, removable bundle U-tube heat exchangers, denoted as “BEU” in the lexicon of the heat exchanger trade [4.1.1] utilize this joint detail (Fig. 4.1.1). Figure 3.1.1 shows another application of this joint in a “pull through externally packed” construction. In view of its widespread use, we focus our attention on this joint in some depth and present a technique for performing a detailed stress analysis. The need to evolve a comprehensive solution for this class of joints is particularly important, since a standard application of the code design methods may produce grossly erroneous results for the low pressure side flange. The 1983 issue of the ASME Code [4.1.2] recognizes the quirks in the structural behavior of such joints, but offers no detailed solution.
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References
“Standards of Tubular Manufacturers Association,” 6th ed., TEMA, New York (1978).
ASME Boiler and Pressure Vessel Code, Section VIII, Div. I, Appendix 2, The American Society of Mechanical Engineers, New York (1983).
Tinker, T. 1951. “Shell Side Characteristics of Shell and Tube Heat Exchangers”. In General Discussion of Heat Transfer, Institute of Mechanical Engineers and ASME, pp. 97–116, London, England.
Taborek, J., “Design Methods for Heat Transfer Equipment–A Critical Survey of the State-of-Art,” In Heat Exchangers: Design and Theory Sourcebook, Afgan, N., and Schlünder, E.V., eds., Scripta Book Company, pp. 45–74, Washington, D.C. (1974).
Singh, K. P., and Holtz, M., “A Method to Design Shell-side Pressure Drop Constrained Tubular Heat Exchangers,” Trans. ASME, Journal of Engineering for Power, Vol. 99, Series A, No. 3, pp. 441–448 (1977).
Stevens-Guille, P. D., and Crago, W. A., “Application of Spiral Wound Gaskets for Leak-Tight Joints,” Journal of Pressure Vessel Technology, Trans. A.ME, Vol. 97, Series J, No. 1, pp. 29–33 Feb. 1975. See also Discussion by Singh, K. P., Journal of Pressure Vessel Technology, Trans. ASME, Vol. 98, Series J, No. 1, pp. 81–83 (Feb. 1976).
Slot, T., and O’Donnel, W. J., “Effective Elastic Constants for Thick Perforated Plates with Square and Triangular Penetration Patterns,” Pressure Vessel and Piping: Design and Analysis, Vol. 2, ASME, pp. 1081–1101 (1972).
Sampson, R. C., “Photoelastic Analysis of Stresses in Perforated Material Subject to Tension or Bending,” Bettis Technical Review, WAPD-BT-18 (April 1960).
Soler, A. I., and Hill, W. S., “Effective Bending Properties for Stress Analysis of Rectangular Tubesheets,” Trans. ASME, Journal of Engineering for Power, Vol. 99, No. 3, pp. 365–370 (July 1977).
Gardner, K. A., “Heat Exchanger Tubesheet Design–III U-Tube and Bayonet Tubesheets,” Journal of Applied Mechanics, Trans. ASME, Vol. 27, No. 82, pp. 25–32 (1960).
Carnahan, B., Luther, H. A., and Wilkes, D. O., Applied Numerical Methods, pp. 71–75, New York, Wiley (1969).
Kays, W. M., 1950. “Loss Coefficients for Abrupt Changes in Flow Cross Section with Low Reynolds Number Flow in Single and Multiple Tube Systems,” Trans. ASME, Vol. 72, pp. 1067–1074 (1950).
Singh, K. P., “Study of Bolted Joint Integrity and Inter-TubePass Leakage in U-tube Heat Exchangers; Part II: Applications,” Trans. ASME, Journal of Engineering for Power, Vol. 101, No. 1, pp. 9–15 (1979).
Singh, K. P., “Study of Bolted Joint Integrity and Inter-TubePass Leakage in U-Tube Heat Exchangers: Part I: Analysis,” Trans. ASME, Journal of Engineering for Power, Vol. 101, No. 1, pp. 16–22 (1979).
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© 1984 Springer-Verlag Berlin Heidelberg
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Singh, K.P., Soler, A.I. (1984). Tubesheet Sandwiched between Two Flanges. In: Mechanical Design of Heat Exchangers. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-12441-3_4
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DOI: https://doi.org/10.1007/978-3-662-12441-3_4
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