00575nam2 2200193 450 00003461320220610111226.020220610d2021----km-y0itay50------baitaITy-------001yyResponsabilità da comandoA. M. Maugerip. 1075-11020010000344652001Reato colposodiretto da Massimo DoniniMaugeri,Anna Maria312751ITUNIPARTHENOPE20220610REICATUNIMARC000034613Responsabilità da comando2860134UNIPARTHENOPE05430nam 2200661Ia 450 991095547710332120250314172448.097801238700180123870011(CKB)2670000000312361(EBL)1092952(OCoLC)823726578(SSID)ssj0000914987(PQKBManifestationID)12402158(PQKBTitleCode)TC0000914987(PQKBWorkID)10865039(PQKB)10124439(Au-PeEL)EBL1092952(CaPaEBR)ebr10749205(CaONFJC)MIL512083(MiAaPQ)EBC1092952(PPN)170607097(EXLCZ)99267000000031236120130619d2013 uy 0engur|n|---|||||txtccrPressure vessel design manual /Dennis R. Moss, Michael Basic4th ed.Amsterdam ;Boston Elsevier/Butterworth-Heinemann20131 online resource (825 p.)Description based upon print version of record.9780123870001 0123870003 Includes bibliographical references and index.Front Cover; PRESSURE VESSEL DESIGN MANUAL; Copyright; Contents; Preface to the 4th Edition; Chapter1 - General Topics; Design Philosophy; Stress Analysis; Stress/Failure Theories; Failures in Pressure Vessels; Loadings; Stress; Thermal Stresses; Discontinuity Stresses; Fatigue Analysis for Cyclic Service; Creep; Cryogenic Applications; Service Considerations; Miscellaneous Design Considerations; Items to be Included in a User's Design Specification (UDS) for ASME VIII-2 Vessels; References; Chapter 2 - General Design; Procedure 2-1: General Vessel Formulas [1,2]Procedure 2-2: External Pressure DesignProcedure 2-3: Properties of Stiffening Rings; Procedure 2-4: Code Case 2286 [1,8,21]; Procedure 2-5: Design of Cones; Procedure 2-6: Design of Toriconical Transitions [1,3]; Procedure 2-7: Stresses in Heads Due to Internal Pressure [2,3]; Procedure 2-8: Design of Intermediate Heads [1,3]; Procedure 2-9: Design of Flat Heads [1,2,4,5,6]; Procedure 2-10: Design of Large Openings in Flat Heads [1]; Procedure 2-11: Calculate MAP, MAWP, and Test Pressures; Procedure 2-12: Nozzle Reinforcement; Procedure 2-13 Find or Revise the Center of Gravity of a VesselProcedure 2-14: Minimum Design Metal Temperature (MDMT)Procedure 2-15: Buckling of Thin Wall Cylindrical Shells [21]; Procedure 2-16: Optimum Vessel Proportions [16-20]; Procedure 2-17: Estimating Weights of Vessels and Vessel Components; Procedure 2-18: Design of Jacketed Vessels; Procedure 2-19: Forming Strains/Fiber Elongation; References; Chapter3 - Flange Design; Introduction; Procedure 3-1: Design of Flanges [1-4]; Procedure 3-2: Design of Spherically Dished Covers; Procedure 3-3: Design of Blind Flanges with Openings [1,4]; Procedure 3-4: Bolt Torque Required for Sealing Flanges [5-7]Procedure 3-5: Design of Studding OutletsProcedure 3-6: Reinforcement for Studding Outlets; Procedure 3-7: Studding Flanges; Procedure 3-8: Design of Elliptical, Internal Manways; Procedure 3-9: Through Nozzles; References; Chapter4 - Design of Vessel Supports; Introduction: Support Structures; Procedure 4-1: Wind Design Per ASCE [1]; Procedure 4-2: Seismic Design - General; Procedure 4-3: Seismic Design for Vessels [2]; Procedure 4-4: Seismic Design - Vessel on Unbraced Legs [4-7]; Procedure 4-5: Seismic Design - Vessel on Braced Legs; Procedure 4-6: Seismic Design - Vessel on Rings [4,5,8]Procedure 4-7: Seismic Design - Vessel on Lugs [5,8-13]Procedure 4-8: Seismic Design - Vessel on Skirt [1,2,3]; Procedure 4-9: Seismic Design - Vessel on Conical Skirt; Procedure 4-10: Design of Horizontal Vessel on Saddles [1,3,14,15]; Procedure 4-11: Design of Saddle Supports for Large Vessels [4,15-17,20]; Procedure 4-12: Design of Base Plates for Legs [20,21]; Procedure 4-13: Design of Lug Supports; Procedure 4-14: Design of Base Details for Vertical Vessels - Shifted Neutral Axis Method [4,9,13,17,18]Procedure 4-15: Design of Base Details for Vertical Vessels - Centered Neutral Axis MethodPressure vessels are closed containers designed to hold gases or liquids at a pressure substantially different from the ambient pressure. They have a variety of applications in industry, including in oil refineries, nuclear reactors, vehicle airbrake reservoirs, and more. The pressure differential with such vessels is dangerous, and due to the risk of accident and fatality around their use, the design, manufacture, operation and inspection of pressure vessels is regulated by engineering authorities and guided by legal codes and standards. Pressure Vessel Design Manual is a solutions-Pressure vesselsDesign and constructionHandbooks, manuals, etcTanksDesign and constructionPressure vesselsDesign and constructionTanksDesign and construction.681/.76041Moss Dennis R1792660Basic Michael1792661MiAaPQMiAaPQMiAaPQBOOK9910955477103321Pressure vessel design manual4331470UNINA