Welded joints as critical regions in pressure vessels – case study of vinyl-chloride monomer storage tank

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Tamara Golubovic
Aleksandar Sedmak
Vesna Spasojevic Brkic
Snezana Kirin
Emil Veg

Abstract

Welded joints are analysed as critical regions in a pressure vessel in respect to structural failure due to the elastic-plastic fracture/crack growth. To assess structural integrity of pressure vessels used in chemical industry the risk based procedure has been introduced and applied in the case of a large spherical pressure vessel used as a vinyl-chloride monomer (VCM) storage tank in HIP Azotara Pančevo. The risk matrix has been used, taking into account the basic definition of risk, being the product of the probability and consequence, and applied to different regions of welded joints, having different mechanical properties, i.e. crack resistance. To estimate probability, the failure assessment diagram (FAD) has been used, as an engineering tool, defined according to the position of the operating point for different regions of the welded joint, relative to the critical point on the limit curve. Generally speaking, consequence is estimated based on pressure vessel parameters, or by detailed analysis of health, safety, business and security issues, but in the analysed case, the worst case scenario is assumed, with the highest consequence due to potential disaster for environment and fatalities.

Article Details

How to Cite
[1]
T. Golubovic, A. Sedmak, V. Spasojevic Brkic, S. Kirin, and E. Veg, “Welded joints as critical regions in pressure vessels – case study of vinyl-chloride monomer storage tank”, Hem Ind, vol. 72, no. 4, pp. 177–182, Jul. 2018, doi: 10.2298/HEMIND171009006G.
Section
Chemical Engineering - General

How to Cite

[1]
T. Golubovic, A. Sedmak, V. Spasojevic Brkic, S. Kirin, and E. Veg, “Welded joints as critical regions in pressure vessels – case study of vinyl-chloride monomer storage tank”, Hem Ind, vol. 72, no. 4, pp. 177–182, Jul. 2018, doi: 10.2298/HEMIND171009006G.

References

Algool M, Sedmak A, Kirin S, Rakičević B, Bakić R. Industrial safety of pressure vessels - structural integrity and risk assessment point of view, Hem. Ind. 2016;70: 685-694

Bakić R, Milović Lj, Jovičić R, Sedmak SA. Quality assurance of storage tanks after in-service crack repairs, Structural Integrity and Life. 2013; 13: 63–74

Sedmak A, Kirin S, Golubovic T, Mitrovic S, Stanojevic P. Risk based approach to integrity assessment of a large spherical pressure vessel, ECF21, Catania, Italy, 2016, Structural Integrity Procedia, Vol. 2, 3654-3659

Kirin S, Martic I, Sedmak A, Alkateb M, Stanojevic P. Structural integrity assessment of a cylindrical pressure vessel by using the risk based approach, Int. Conf. Struct. Int. and Durability. Dubrovnik, Croatia, 2017, p. 241-242.

Đorđević P, Kirin S, Sedmak A, Džindo E. Risk analysis in Structural Integrity. Structural Integrity and Life. 2011; 11: 135-138.

Golubovic T, Sedmak A, Spasojević Brkić V, Kirin S, Rakonjac I. Novel Risk Based Assessment of Pressure Vessel Integrity, accepted for publication in Technical Gazette. 2018

ISO 31000: Risk management – risk assessment techniques. 2009

API 581: The standard for quantitative Risk Based Ins¬pec¬tion, American Petroleum Institute. 2010

Stanojević P, Jovanović A, Kirin S, Misita M, Orlić B, Eremić S. Some Achievements in RBIM Implementation According to RIMAP Approach, Structural Integrity and Life. 2015; 15: 79–84

Martić, I, Sedmak A, Tomić R, Hot I. Remaining Life Determination for Pressure Vessel in a Refinery, Structural Integrity and Life. 2016; 16: 49–62

Anderson T. Fracture Mechanics – Fundamental and Applications, 3rd Edition, CRC Press, 2003

Sedmak A, Sedmak S, Milovic Lj. Pressure equipment integrity assessment by elastic-plastic fracture mechanics methods, DIVK, Belgrade, 2011

Sedmak A, Berkovic M, Savovic N. Numerička analiza problema površinskih prslina u posudama pod pritiskom, Ekspolatacijske prsline u posudama pod pritiskom i rezervoarima (ured. Sedmak S, Sedmak A), TMF-ECPD-GOSA, 1994, 211-227

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