Evaluation of Stresses in a Cylindrical Pressure Vessel with Varying Internal Pressure, Shell Thickness and Shell Diameter-Reference-Cited by-同舟云学术

Evaluation of Stresses in a Cylindrical Pressure Vessel with Varying Internal Pressure, Shell Thickness and Shell Diameter

Published:2019-05-30 Issue: Volume: Page:106-112
ISSN:2581-9429
Container-title:International Journal of Advanced Research in Science, Communication and Technology
language:en
Short-container-title:IJARSCT

Author:

Prof. S. V. Tawade ¹

Affiliation:

1. Navsahyadri Group of Institutes, Faculty of Engineering, Pune, India

Abstract

The present work gives information about the stresses in a horizontal cylindrical pressure vessel with different types end closures by varying the internal pressure and thickness and diameter of vessel shell. The pressure vessel is designed for 40 Liter volume and 9 bar pressure. The end closures of pressure vessel is tori spherical dished head. However. Influence of three parameters, that is, thickness of shell, internal pressure, and internal diameter of shell over the longitudinal stresses and circumferential stresses are studied. One parameter varied sat a time and the other two perimeters kept constant. The results of longitudinal stresses and circumferential stresses obtained are presented in this work. A horizontal cylindrical pressure vessel was required for storing 40L gas at a pressure of 9 bar for an industrial application. The pressure vessel diameter is 500mm, length of the vessel is 300mm.

Publisher

Naksh Solutions

Reference14 articles.

1. J. Jegatheesan, Z. Zakaria (2018). “Stress analysis on pressure vessel”. Environment & Ecosystem Science, 2(2): ISSN: 2521-0882 (Print) ISSN: 2521-0483 (Online), 53-57

2. Sadanandam. P, Ramesh. U, Samuel Tamerat (2017), “Design and analysis of pressure vessel using finite element method”, International Journal of Latest Technology in Engineering, Management & Applied Science (IJLTEMAS)Volume VI, Issue V, ISSN 2278-2540, page 1-3

3. A. Devaraju, K. Pazhanivel (2015), “A Study on stress analysis for design of pressure vessel”, International Journal of Mechanical and Production Engineering, ISSN: 2320-2092, Volume- 3, Issue-11, page 98-101

4. M. A. Khattak. A. Mukhtar and K. Azam Khan (2016), “Common root causes of pressure vessel failures”, A Review, Journal of Advanced Research in Applied Mechanics, ISSN (online): 2289-7895 | Vol. 21, No. 1. Pages 22-37.

5. Vijay Kumar, Pardeep Kumar(2014), “Mechanical design of pressure vessel by using PV Elite software”, International Journal of Scientific and Research Publications, Volume 4, Issue 4, ISSN 2250-3153.