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Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings

Year 2011, Volume: 3 Issue: 4, 43 - 55, 01.12.2011

Abstract

Pressure vessels have been in wide use for many years in chemical, petroleum, military industries as well as in nuclear power plants. They are usually subjected to high pressures and temperatures which may be constant or cycling. This paper studies finite element analysis of a spherical pressure vessel under simultaneous thermal and pressure loadings in transient state along with numeric analytical method. A new numeric-analytical method for calculating the transient stress and displacement is introduced. Since the FEM is used for determination of temperature distribution, stress and displacement, therefore, existence of some errors is possible, but because the length and volume size of elements and step time are selected small enough, so, the obtained results are very accurate. Since, the Riemann's integral method is used for calculation of displacement and stress; the created error will be slightly higher. So, by considering the approximate methods used in temperature and displacement calculations and the FEM used in temperature distribution computation, appearance of such errors seems to be normal, thus, if the elements are chosen relatively smaller and much precise methods are used, the errors would be negligible

References

  • 1. J. Vyas, M. Solanki. Design and analysis of pressure vessel. M.Sc. Thesis, UV Patel College of Engineering, Ganpat University, India, (2010).
  • 2. D. Heckman, M. Solanki. Finite element analysis of pressure vessels. Internship paper, University of California, Davis, (1998).
  • 3. D. Chang, W. Rongshun. Application of ANSYS in stress analysis and optimization design of cryogenic pressure vessels, Cryogenics and Superconductivity, China, DOI:CNKI: SUN: DWYC.0.2007-06-000, (2007).
  • 4. R. R. Nath. Design and analysis of thick-walled cylinder with holes, B.Sc. Thesis, Department of Mechanical Engineering, National Institute of Technology, Rourkela, India, (2011).
  • 5. M. Necati Özışık. Heat transfer: a basic approach, Volume 1, International student edition, McGraw-Hill, the University of Michigan, (1985).
  • 6. W. Johnson, P.B. Mellor. Engineering Plasticity. Van Nostrand, Reinhold, New York, (1973).
  • 7. J. E. Shigley, C. R. Mischke. Mechanical Engineering Design, 8th edition, McGraw-Hill, New York, (2008)
Year 2011, Volume: 3 Issue: 4, 43 - 55, 01.12.2011

Abstract

References

  • 1. J. Vyas, M. Solanki. Design and analysis of pressure vessel. M.Sc. Thesis, UV Patel College of Engineering, Ganpat University, India, (2010).
  • 2. D. Heckman, M. Solanki. Finite element analysis of pressure vessels. Internship paper, University of California, Davis, (1998).
  • 3. D. Chang, W. Rongshun. Application of ANSYS in stress analysis and optimization design of cryogenic pressure vessels, Cryogenics and Superconductivity, China, DOI:CNKI: SUN: DWYC.0.2007-06-000, (2007).
  • 4. R. R. Nath. Design and analysis of thick-walled cylinder with holes, B.Sc. Thesis, Department of Mechanical Engineering, National Institute of Technology, Rourkela, India, (2011).
  • 5. M. Necati Özışık. Heat transfer: a basic approach, Volume 1, International student edition, McGraw-Hill, the University of Michigan, (1985).
  • 6. W. Johnson, P.B. Mellor. Engineering Plasticity. Van Nostrand, Reinhold, New York, (1973).
  • 7. J. E. Shigley, C. R. Mischke. Mechanical Engineering Design, 8th edition, McGraw-Hill, New York, (2008)
There are 7 citations in total.

Details

Other ID JA65ZU65FY
Journal Section Articles
Authors

Vahid Shaterian-alghalandis This is me

Amin Paykani This is me

Publication Date December 1, 2011
Published in Issue Year 2011 Volume: 3 Issue: 4

Cite

APA Shaterian-alghalandis, V., & Paykani, A. (2011). Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings. International Journal of Engineering and Applied Sciences, 3(4), 43-55.
AMA Shaterian-alghalandis V, Paykani A. Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings. IJEAS. December 2011;3(4):43-55.
Chicago Shaterian-alghalandis, Vahid, and Amin Paykani. “Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings”. International Journal of Engineering and Applied Sciences 3, no. 4 (December 2011): 43-55.
EndNote Shaterian-alghalandis V, Paykani A (December 1, 2011) Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings. International Journal of Engineering and Applied Sciences 3 4 43–55.
IEEE V. Shaterian-alghalandis and A. Paykani, “Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings”, IJEAS, vol. 3, no. 4, pp. 43–55, 2011.
ISNAD Shaterian-alghalandis, Vahid - Paykani, Amin. “Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings”. International Journal of Engineering and Applied Sciences 3/4 (December 2011), 43-55.
JAMA Shaterian-alghalandis V, Paykani A. Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings. IJEAS. 2011;3:43–55.
MLA Shaterian-alghalandis, Vahid and Amin Paykani. “Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings”. International Journal of Engineering and Applied Sciences, vol. 3, no. 4, 2011, pp. 43-55.
Vancouver Shaterian-alghalandis V, Paykani A. Finite Element Analysis of a Spherical Pressure Vessel under Simultaneous Thermal and Pressure Loadings. IJEAS. 2011;3(4):43-55.

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