Design considerations for rectangular bolted full face flanged joints for surface condensers
DOI:
https://doi.org/10.15392/2319-0612.2022.1989Keywords:
Bolted Joint, Full face, Rectangular flange, Surface condenserAbstract
Rectangular bolted full face flanged joints are widely used in surface condensers within the power generation industry including the nuclear one. In order to design these components, it is necessary to analyze the flanged joint from the point of view of structural strength and tightness. This work presents an analytical procedure applied to a rectangular bolted flange to determine the thickness of the flange, the bolt stresses and tightness conditions. First, the proposed analytical procedure is validated by comparing results from finite element analysis (FEA) using non-linear approach considering the behavior of the gasket and contacts. In addition, the results of proposed procedure applied to the design of a rectangular flanged joint of a steam surface condenser were compared for two different gaskets: compressed non-asbestos fiber gasket and NBR elastomer gasket. The results show a better performance of the NBR elastomer gasket in comparison with compressed fiber gasket: better sealing conditions, reduction of thicknesses of flange and reduction of bolt stresses. It is important to highlight there are practically no references of procedures for design non-circular full face flanged joints.
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References
Chattopadhyay, S. “Pressure Vessels: Design and Practice - 1st Edition”, CRC Press, US, pp. 111-118. (2004)
Blach, A.E. “Bolted flanged connections for noncircular pressure vessels,” Gasket and Gasketed Joints – edited by John H. Bickford, CRC Press, pp. 487-505, USA (1998).
BSI, 2005.” Enquiry Case 5500/133: September 2003 to PD5500:2003 Issue 3, November 2005,” British Standards
ASME, 2019. “ASME Boiler and Pressure Vessel Code, Section VIII, Division 1”.
Waters, E. O., Rossheim, D. B., Wesstrom, D. B., and Williams, F. S. G. “Formulas for Stresses in Bolted Flanged Connections,” Trans. ASME, 59, pp.161–169 (1937).
Schneider, R. W. “Flat Faces Flanges with Metal-to-Metal Contact Beyond the Bolt Circle,” ASME J. Eng. Power, 90(1), pp. 82–88 (1968). DOI: https://doi.org/10.1115/1.3609138
Modern Flange Design, 7th ed. “Bulletin 502”, G&W Taylor-Bonney Division, Southfield, MC (1978).
Blach, A.E. “Bolted flanged connections with full-face gaskets,” Gasket and Gasketed Joints – edited by John H. Bickford, CRC Press, pp. 507-521, USA (1998).
BSI, 2012. “PD CEN/TR 1591-5:2012 Flanges and their joints – Design rules for gasket circular flange connections, Part 5: Calculation method for full face gasket”. BSI Standards
Xue, L. “Structural Analysis of Rectangular Bolted Flanged Connections for Pressure Vessels,” Canada (1992)
ASME, 2019. “ASME Boiler and Pressure Vessel Code, Section II Materials, part D: Properties”.
ASME, 2019. “ASME Boiler and Pressure Vessel Code, Section VIII, Division 2 – Alternative rules”.
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