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Numerical Analysis of Stress-Strain State of Vertical Cylindrical Oil Tanks with Dents
The destruction of vertical cylindrical tanks results in both human and economic losses. Despite constant improvement of the manufacturing technology of cylindrical tanks, a complete analysis of the influence of various dents on stress-strain states was not performed. Dents are the most dangerous, u...
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| Main Authors: | , |
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| Format: | Article |
| Language: | English |
| Published: |
Інстиут проблем машинобудування ім. А.М. Підгорного НАН України
2018
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| Series: | Проблеми машинобудування |
| Subjects: | |
| Online Access: | http://dspace.nbuv.gov.ua/handle/123456789/141894 |
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| Summary: | The destruction of vertical cylindrical tanks results in both human and economic losses. Despite constant improvement of the manufacturing technology of cylindrical tanks, a complete analysis of the influence of various dents on stress-strain states was not performed. Dents are the most dangerous, unpredictable zones that are studied a little. It should be specially emphasized that there is no system to assess the stress concentrations in the dent zone, and the regulatory documents for the construction and operation of oil tanks do not take into account the stress-strain state in the dent. The paper presents the results of a finite element analysis of the stress-strain states of the cylindrical tanks with spherical dents. On the basis of the finite element analysis, approximate relationships are derived for stress concentration coefficients that can be used to calculate various sized cylindrical tanks with different dents. A cylindrical tank with a spherical dent is investigated. The reasons for dent formation are not considered. It is assumed that there are no residual stresses in the dent area. Simulating the stress-strain state of the tank, the conclusion is made that the greatest stresses are observed in the lower part of the dent. As in the lower part of the dent, the internal pressure of fuel oil is greater. At high values of the relative depth of the dent the maximum stresses are observed only at the lower boundary of the dent. An approximation technique for calculating the stress concentration factor in the dent is proposed. An approximate model of the stress concentration factor due to the dent size parameters is built for an example tank |
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