Finite Element Analysis of Pressure Vessel and Piping Design

  ijett-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2012 by IJETT Journal
Volume-3 Issue-5                       
Year of Publication : 2012
Authors :  Bandarupalli Praneeth , T.B.S.Rao

MLA 

Bandarupalli Praneeth , T.B.S.Rao. "Finite Element Analysis of Pressure Vessel and Piping Design". International Journal of Engineering Trends and Technology (IJETT). V3(5):567-570 Sep-Oct 2012. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group

Abstract

The main objective of this paper is finite element analysis of pressure vessel and piping des ign. F eatures of multilayered high pressure vessels, their advantages over mono block vessel are discussed. Various parameters of Solid Pressure Vessel are des igned and checked according to the principles specified in American Society of Mechanical Engineers (A.S.M.E) Sec VIII Division 1. Various parameters of Multilayer Pressure vessels are designed and checked according to the principles specified in American Society of Mechanical Engineers (A.S.M.E) Sec VIII Division 1.The stresses developed in Solid wall pressure vessel and Multilayer pressure vessel is analyzed by using ANSYS, a versatile Finite Element Package. The theoretical values and ANSYS values are c ompared for both solid wall and multilayer pressure vessels

References

[1] Henry H.Bednar “ Pressure Vessel Code Book” , Chapter 11.
[2] Brownell and Young, “Process Equipment Design” Chapter 7, Chapter 13, Chapter 14 and Chapter 15.
[3] Seely , F.B., and Smith, A.O., “Advanced Mechanics of Materials ” Wiley, Newyork, Chapter10.
[4] John F.Henvey “ Pressure Vessel Design - Nuclear and Chemical Applications ” An East - west Edition, Newyork, Chapter 5 and Chapter7.
[5] Fino, A.F., “Economic Consid erations for High Pressure Vessel Design” pp - 101 - 104.
[6] BHPV manual on “ Design and Analysis of Multi - layer High Pressure Vessels” .
[7] Fratcher, G.E : “ New alloys for Multi layer Vessels ”Vol 33 ,No.11.
[8] Jasper, T.M and scudder, C.M “ Multilayer Construction of Thick - wall Pressure Vessels” Volume 37.
[9] Jawad, Maan H., “Wrapping Stress and Its Effect on strength of Concentrically Formed Plywaals, ” Paper No 72 - PVP7.
[10] Harold.h.Waite e, “ Pressure Vessel and Piping design Analysis ” volume fo ur.
[11] Mc Cabe, J.S a nd Rothrock, E.W., “ Multilayer Vessels for High Pressure, ” ASME Mechanical engineering PP 34 - 39.
[12] Mc Cabe, J.S and Rothrock, E.W., “ Recent Developments in Multilayer Vessels, ” british chemical engineering Vol.16, No6,1971.
[13] MCDowell, D.W., and Milligan, J.D., “ Multilayer Reactors Resist Hydrogen Attack ”, Hydrocracking Magazine ,vol.44, No12, 1965.
[14] Wilson.e.C “ Structural Analysis of Axisymmetric Solids ”.
[15] Gas Metal Diffusion from ASME Journals.
[16] ASME Code Book S ection VIII & Division - I.
[17] Ansys User’s Manual, Swanson Anlysis System , Inc.1995.
[18] C.Zienkeewz.” The Finite Element Method in Structural and Continuum mechanics.
[19] R.S.Khurmi and J.K.Gupta., “ A Test Book of Machine design ” S.Chand publications.
[20] Noel, M.R., “ Multiwall Pressure Vessels ”, British Chemical Engineering Vol.15,No7,1970.

Keywords
Design, Analysis, Solid & Multilayer Pressure vessel, ANSYS