Recommendation for linearization procedure in nuclear pressure vessel-nozzle intersections
DOI:
https://doi.org/10.15392/bjrs.v8i3A.1572Palabras clave:
Elastic Stress Analysis, Design by Analysis, Stress Linearization, Nuclear Pressure Vessel.Resumen
The pressure vessel design is a fundamental step during the construction of new pressurized water reactors (PWRs). In these facilities, several safety requirements are necessary to guarantee the protection of workers, community and environment against the release of radioactive materials. The Design by Analysis is the procedure present in the ASME Code, Section III, for nuclear components, which consist of rigorous analysis and classification of all types of stresses and loading conditions to incorporate smaller safety coefficients. The limits present in the ASME Code, Section III, were based on the shell theory. However, precise rules for achieving the various stress categories, by solid finite element analysis, have not been implemented in the code. For this reason, this work presents a methodology for the linearization procedure of elastic stresses in a pressure vessel-nozzle intersections. So a vessel was modeling in tridimensional solid finite elements, analyzed and verified as a nuclear component. Then, a discussion of how to perform the code verifications was presented, as well as a mapping of stresses. The lines that were constructed in pressure vessel between transition and structural elements in the longitudinal plane (0º) and lines in structural elements in the nozzle in the transversal plane (90º) presents higher stresses and are compared with the ASME Code, Section III limits.
Descargas
Referencias
ASME Boiler & Pressure Vessel Code, Section III, Division 1, Subsection NB – Class 1 Components, 2007.
WRC 429, J. L. HECHMER, G. L. HOLLINGER. 3D Stress Criteria – Guidelines for Application. Welding Research Council, Inc., Bulletin WRC 429, ISSN 0043-2326 / ISBN 1-58145-436-8, Feb. 1998, Welding Research Council, Inc., N. York, USA, 1998.
MIRANDA. C. A. J.; FALOPPA. A. A.; NETO. M. M. and FAINER. G. ASME Stress Linearization and Classification – A Discussion Based on a Case Study. International Nuclear Atlantic Conference. Belo Horizonte, MG, 2011.
ANSYS APDL v18.2, ANSYS Structural Analysis Guide & Theory Reference Manual, 2017.
ANSYS Spaceclaim help, 2018.
X. LIPING. and G.E.O.WIDERA. Guidelines for FEA Modeling of Cylinder-To-Cylinder Intersection. July San Diego, California USA. PVP-Vol. 477, 25-29, 2004.
ASME Boiler & Pressure Vessel Code, Section II, Part D – Properties (Materials), 2007.
Descargas
Publicado
Número
Sección
Licencia
Derechos de autor 2021 Brazilian Journal of Radiation Sciences (BJRS)
Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.
Licencia: los artículos de BJRS tienen una licencia internacional Creative Commons Attribution 4.0, que permite el uso, el intercambio, la adaptación, la distribución y la reproducción en cualquier medio o formato, siempre que se otorgue el crédito correspondiente al autor o autores originales y a la fuente, proporcione un enlace a la licencia Creative Commons e indique si se realizaron cambios. Las imágenes u otros materiales de terceros en el artículo están incluidos en la licencia Creative Commons del artículo, a menos que se indique lo contrario en una línea de crédito al material. Si el material no está incluido en la licencia Creative Commons del artículo y su uso previsto no está permitido por la regulación legal o excede el uso permitido, el autor deberá obtener el permiso directamente del titular de los derechos de autor. Para ver una copia de esta licencia, visite http://creativecommons.org/licenses/by/4.0/
