University of Southern Queensland. Faculty of Engineering and Surveying. Assessment of Appropriate Pressure Vessel Flange Bolt Tension by Finite Element Modelling. A dissertation submitted by Brett C Taylor in fulfillment of the requirements of Courses ENG4111 and ENG4112 Research Project towards the degree of Bachelor of Engineering (Mechanical) Submitted: October 2004. Abstract Flanged joints on large diameter flanges can prove problematic to seal successfully with many factors contributing to ensuring a successful operation. One such factor is stud bolt loading contributing to stress and deflection of the flanged joint. This investigation involves the use of finite element analysis (F.E.A) to predict levels of stress and deflection of a particular flanged joint when the stud bolts are tightened and flange pressurised. The level of stud bolt force selected must ensure the joint is sufficiently tight to avoid leakage. However, the force must not be excessive causing damage. The flanged joint is located on the channel head of a shell and tube heat exchanger. For the purposes of this project, the educational version of ANSYS 5.5 was used thus a number of critical assumptions were made to operate within the restrictions of the software. As a comparative check of the F.E.A method, a conventional method termed the target load bolt-up method was employed. The analysis results using both methods, when interpreted, indicated the flange was not excessively stressed. Field monitoring by observation of the flanged joint for signs of leakage and other detrimental effects indicates the stud bolt load selected is acceptable. ii University of Southern Queensland. Faculty of Engineering and Surveying. . ENG4111 & ENG4112 Research Project . Limitations of Use The Council of the University of Southern Queensland, its Faculty of Engineering and Surveying, and the staff of the University of Southern Queensland do not accept any responsibility for the truth, accuracy or completeness of material contained within or associated with this dissertation. Persons using all or any part of this material do so at their own risk, and not at the risk of the Council of the University of Southern Queensland, its Faculty of Engineering and Surveying, or the staff of the University of Southern Queensland. This dissertation reports an educational exercise and had no purpose or validity beyond this exercise. The sole purpose of the course pair entitled ‘Research Project’ is to contribute to the overall education within the student’s chosen degree program. This document, the associated hardware, software, drawings, and other material set out in the associated appendices should not be used for any other purpose: if they are so used, it is entirely at the risk of the user. Prof G Baker Dean Faculty of Engineering and Surveying iii Certification I certify that the ideas, designs and experimental work, results, analyses and conclusions set out in this dissertation are entirely my own effort, except where otherwise indicated and acknowledged. I further certify that the work is original and has not been previously submitted for assessment in any other course or institution, except where specifically stated. Brett C Taylor Student Number: Q29034680. Signature: Date: iv Acknowledgements Thanks are expressed for the invaluable help and guidance received by my supervisors Dr Wenyi Yan and Mr. Chris Snook of the University of Southern Queensland. My wife and children also deserve thanks for enduring much inconvenience during the construction of this dissertation. I am also indebted to numerous colleagues at my place of employment who have provided assistance, particularly Mr. Ross Barnard for his assistance in editing drawings and sketches. Brett Taylor. University of Southern Queensland. October 2004. v Table of Contents Abstract........................................................................................................................................ii Certification................................................................................................................................iv Acknowledgements.....................................................................................................................v Table of Contents.......................................................................................................................vi List of Figures..............................................................................................................................x List of Tables.............................................................................................................................xii Nomenclature...........................................................................................................................xiii Glossary....................................................................................................................................xxi Chapter 1 Introduction...............................................................................................................1 1.1 Project Aims................................................................................................................1 1.2 Specific Objectives......................................................................................................2 1.3 Layout of Dissertation.................................................................................................2 vi Chapter 2 Background...............................................................................................................5 2.1 General Description.....................................................................................................5 2.2 Heat Exchanger Details...............................................................................................7 2.3 Flanged Joint Data.....................................................................................................10 2.4 Gasket Data...............................................................................................................13 2.5 Discussion..................................................................................................................14 Chapter 3 Literature Review...................................................................................................17 3.1 Background................................................................................................................17 3.2 Taylor Forge Design Method....................................................................................18 3.3 EN 1591 European Method.......................................................................................20 3.4 Target Load Bolt-up Method.....................................................................................20 3.5 Finite Element Analysis Methods..............................................................................21 Chapter 4 F.E.A. Method of Design and Analysis.................................................................22 4.1 General Remarks.......................................................................................................22 4.2 Basic Assumptions....................................................................................................22 4.3 Modelling of Joint.....................................................................................................23 4.4 Material Properties....................................................................................................24 4.5 Dimensional Inputs....................................................................................................24 4.6 Model Elements.........................................................................................................28 4.7 Boundary Conditions and Meshing...........................................................................30 4.8 Loadings / Pressures..................................................................................................31 vii Chapter 5 Target Load Bolt-up Method, Analysis and Results............................................36 5.1 General Remarks.......................................................................................................36 5.2 AS1210 Flange Design Bolt Forces..........................................................................37 5.3 Additional Allowances for Bolt-up...........................................................................38 5.4 Flange Moments........................................................................................................39 5.5 Flange Stresses..........................................................................................................41 5.6 Results of Analysis....................................................................................................44 5.7 Flange Rotation.........................................................................................................47 5.8 Stud Bolt Stresses......................................................................................................49 5.9 Summary of Results – Target Bolt-up Method..........................................................50 Chapter 6 Results of F.E.A. Analysis......................................................................................52 6.1 General Remarks.......................................................................................................52 6.2 Nodal Stress Results – Joint Assembly.....................................................................53 6.3 Nodal Stress Results – Flange...................................................................................55 6.4 Stress Results – Blind Flange....................................................................................58 6.5 Deflection Results.....................................................................................................60 6.6 Flange Rotation.........................................................................................................61 6.7 Summary of Results – F.E.A Method.........................................................................63 viii Chapter 7 Conclusions and Recommendations......................................................................65 7.1 General Remarks.......................................................................................................65 7.2 Stress Results.............................................................................................................66 7.3 Deflection Results.....................................................................................................66 7.4 Field Trial Observations and Results.........................................................................67 7.5 Recommendations.....................................................................................................67 References..................................................................................................................................69 Appendix A Project Specification.................................................................................72 Appendix B Target Bolt-up Method Calculation Sheet Results................................74 Appendix C Selected Reference Data...........................................................................77 Appendix D AS2528 Bolting Data................................................................................82 Appendix E AS1210 Finite Element Guidance...........................................................84 ix List of Figures Figure 2.1 Heater Process Flow Diagram............................................................................5 Figure 2.2 General Arrangement of Heater..........................................................................7 Figure 2.3 Heat Exchanger Flange Assembly [View on Blind Flange]..............................8 Figure 2.4 Heat Exchanger Flange Assembly [View on Flange]........................................8 Figure 2.5 Detail of Flange Section...................................................................................10 Figure 2.6 Mating Blind Flange.........................................................................................11 Figure 2.7 Gasket Detail.....................................................................................................13 Figure 2.8 Typical Hydraulic Bolt Tensioner....................................................................14 Figure 4.1 Flange Details...................................................................................................24 Figure 4.2 Lines generated from Keypoints.......................................................................26 Figure 4.3 Areas generated from Lines..............................................................................27 Figure 4.4 Close-up view of Area Assembly.....................................................................27 Figure 4.5 Plane2 Element.................................................................................................28 Figure 4.6 Targe169 / Conta172 Elements.........................................................................29 Figure 4.7 Boundary Conditions and Meshing..................................................................30 Figure 4.8 Pressure Area....................................................................................................32 Figure 4.9 Illustration of Pressure Loads...........................................................................35 Figure 5.1 Bolt Load Comparative Range..........................................................................39 Figure 5.2 Typical Hubbed Flange Diagram......................................................................40 Figure 5.3 Longitudinal Hub Stress Region.......................................................................41 x