The Finite Element Method in the function of corrosion damage assessment of pipelines
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Pipelines, with specifics in design, construction, testing and safety requirements must be designed
based on all relevant influences to ensure that they are safe during their working life. Allowable
stresses must be limited by possible errors in working conditions, in order to completely eliminate
the uncertainty arising from the production, the calculation model, the actual working conditions and
the characteristics and behavior of the material. In the paper, on the example of modeling and
calculation of the corrosion-damaged structure of the ammonia (NH3) transfer pipeline, a
methodological approach to the calculation using the Finite Element Method (FEM), is shown, in
accordance with the methods defined by the new and general approach to standardization and
technical harmonization for pressure equipment (Pressure Equipment Directive - PED 97/23 EC).
The paper uses advanced modeling techniques of corroded surfaces, based on FEM, with the aim of
developing a procedure for as...sessing the residual strength of steel pipelines operating in the
environmental conditions of the chemical products industry. The presentation of possible damages
and consequences caused by the corrosion of steel pipelines in the chemical products industry is also
given, and the possibility of taking measures to prevent such occurrences is discussed.
Keywords:
pipeline / corrosion-damage / measurement / corrosion assessment / FEMSource:
XXIV YuCorr, Divčibare, Serbia-Proceedings, 2023, 216-225Publisher:
- SERBIAN SOCIETY OF CORROSION AND MATERIALS PROTECTION (UISKOZAM)
Funding / projects:
- Ministry of Science, Technological Development and Innovation of the Republic of Serbia, institutional funding - 200012 (Istitute of Material Testing of Serbia - IMS, Belgrade) (RS-MESTD-inst-2020-200012)
- Ministry of Science, Technological Development and Innovation of the Republic of Serbia, institutional funding - 200287 (Innovation Center of the Faculty of Technology and Metallurgy) (RS-MESTD-inst-2020-200287)
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Institut za ispitivanje materijalaTY - CONF AU - Aleksić, Vujadin AU - Zečević, Bojana AU - Bulatović, Srđan AU - Maksimović, Ana AU - Milović, Ljubica PY - 2023 UR - http://rims.institutims.rs/handle/123456789/681 AB - Pipelines, with specifics in design, construction, testing and safety requirements must be designed based on all relevant influences to ensure that they are safe during their working life. Allowable stresses must be limited by possible errors in working conditions, in order to completely eliminate the uncertainty arising from the production, the calculation model, the actual working conditions and the characteristics and behavior of the material. In the paper, on the example of modeling and calculation of the corrosion-damaged structure of the ammonia (NH3) transfer pipeline, a methodological approach to the calculation using the Finite Element Method (FEM), is shown, in accordance with the methods defined by the new and general approach to standardization and technical harmonization for pressure equipment (Pressure Equipment Directive - PED 97/23 EC). The paper uses advanced modeling techniques of corroded surfaces, based on FEM, with the aim of developing a procedure for assessing the residual strength of steel pipelines operating in the environmental conditions of the chemical products industry. The presentation of possible damages and consequences caused by the corrosion of steel pipelines in the chemical products industry is also given, and the possibility of taking measures to prevent such occurrences is discussed. PB - SERBIAN SOCIETY OF CORROSION AND MATERIALS PROTECTION (UISKOZAM) C3 - XXIV YuCorr, Divčibare, Serbia-Proceedings T1 - The Finite Element Method in the function of corrosion damage assessment of pipelines EP - 225 SP - 216 UR - https://hdl.handle.net/21.15107/rcub_rims_681 ER -
@conference{ author = "Aleksić, Vujadin and Zečević, Bojana and Bulatović, Srđan and Maksimović, Ana and Milović, Ljubica", year = "2023", abstract = "Pipelines, with specifics in design, construction, testing and safety requirements must be designed based on all relevant influences to ensure that they are safe during their working life. Allowable stresses must be limited by possible errors in working conditions, in order to completely eliminate the uncertainty arising from the production, the calculation model, the actual working conditions and the characteristics and behavior of the material. In the paper, on the example of modeling and calculation of the corrosion-damaged structure of the ammonia (NH3) transfer pipeline, a methodological approach to the calculation using the Finite Element Method (FEM), is shown, in accordance with the methods defined by the new and general approach to standardization and technical harmonization for pressure equipment (Pressure Equipment Directive - PED 97/23 EC). The paper uses advanced modeling techniques of corroded surfaces, based on FEM, with the aim of developing a procedure for assessing the residual strength of steel pipelines operating in the environmental conditions of the chemical products industry. The presentation of possible damages and consequences caused by the corrosion of steel pipelines in the chemical products industry is also given, and the possibility of taking measures to prevent such occurrences is discussed.", publisher = "SERBIAN SOCIETY OF CORROSION AND MATERIALS PROTECTION (UISKOZAM)", journal = "XXIV YuCorr, Divčibare, Serbia-Proceedings", title = "The Finite Element Method in the function of corrosion damage assessment of pipelines", pages = "225-216", url = "https://hdl.handle.net/21.15107/rcub_rims_681" }
Aleksić, V., Zečević, B., Bulatović, S., Maksimović, A.,& Milović, L.. (2023). The Finite Element Method in the function of corrosion damage assessment of pipelines. in XXIV YuCorr, Divčibare, Serbia-Proceedings SERBIAN SOCIETY OF CORROSION AND MATERIALS PROTECTION (UISKOZAM)., 216-225. https://hdl.handle.net/21.15107/rcub_rims_681
Aleksić V, Zečević B, Bulatović S, Maksimović A, Milović L. The Finite Element Method in the function of corrosion damage assessment of pipelines. in XXIV YuCorr, Divčibare, Serbia-Proceedings. 2023;:216-225. https://hdl.handle.net/21.15107/rcub_rims_681 .
Aleksić, Vujadin, Zečević, Bojana, Bulatović, Srđan, Maksimović, Ana, Milović, Ljubica, "The Finite Element Method in the function of corrosion damage assessment of pipelines" in XXIV YuCorr, Divčibare, Serbia-Proceedings (2023):216-225, https://hdl.handle.net/21.15107/rcub_rims_681 .