Evaluation of stresses and deformations of oil strings in a transient state: a theoretical analysis
Vol. 5 No. 16 (2024), Papers
Vol. 5 No. 16 (2024)

Evaluation of stresses and deformations of oil strings in a transient state: a theoretical analysis

Papers
https://doi.org/10.47460/athenea.v5i16.73
Published July 18, 2024
José Salazar
UNEXPO. Puerto Ordaz, Venezuela.
Luis Rosales-Romero
UNEXPO. Puerto Ordaz, Venezuela.
Franyelit Suárez-Carreno
Universidad de las Americas. Quito, Ecuador.
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Keywords

oil industry
oil strings
vibration study
deformation analisys

How to Cite

Salazar, J., Rosales-Romero, L., & Suarez-Carreno, F. (2024). Evaluation of stresses and deformations of oil strings in a transient state: a theoretical analysis. Athenea Engineering Sciences Journal, 5(16), 7-14. https://doi.org/10.47460/athenea.v5i16.73
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Abstract

This article presents a literature review on evaluating the stresses and deformations of oil strings in a transient state. The review includes studies that apply numerical and analytical models to assess stresses and strains under different operating and load conditions. Research that considers the effects of temperature, pressure, and material properties on string performance is also examined. Work that has developed advanced computational simulations to represent the transient state of strings and their interaction with the well environment is highlighted. In addition, case studies that have validated these models through experimental and field data are discussed. The review provides a comprehensive view of current techniques and their applications, identifying significant advances and remaining challenges in evaluating oil string stresses and deformations under transient conditions.

https://doi.org/10.47460/athenea.v5i16.73
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References

[1] M. Martínez, Daniel Insausti y A. Corales, «Análisis y Modelado de los Esfuerzos en una Sección de Cemento de un Pozo Petrolero Utilizando el Método de Elementos de Contorno (MEC),» Mecánica Computacional, vol. XXXI, pp. 1065-1083, 2012.
[2] J. Ramírez y G. Larrazabal, «Imageonología sísmica 3d post-apilamiento en exploracion petrolera,» 2015. [En línea]. Available:
chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/https://www.researchgate.net/profile/Jose-Ramirez-98/publication/235601976_IMAGEONOLOGIA_SISMICA_3D_POST-APILAMIENTO_EN_EXPLORACION_PETROLERA/links/555a15ee08ae980ca6117682/IMAGEONOLOGIA-SISMICA-3D-POST-. [Último acceso: 2023].
[3] Y. Del Toro, J. Ortiz y Y. Pimienta, «Biblioteca Digital Personalizada sobre Simulación Numérica en la Industria petrolera.,» Universidad de las Ciencias Informáticas, Cuba, 2010.
[4] E. Zhang y A. Abdi, «Communication Rate Increase in Drill Strings of Oil and Gas Wells Using Multiple Actuators.,» Sensors, vol. 19, p. 1337, 2019.
[5] J. Tian, L. Wei, L. Yang, L. Dai, T. Zhang y H. Liu, «Research and experimental analysis of drill string dynamics characteristics and stick-slip reduction mechanism,» Journal of Mechanical Science and Technology , vol. 34, pp. 977-986, 2020.
[6] A. Yigit y A. Christoforou, «Stick-Slip and Bit-Bounce Interaction in Oil-Well Drillstrings,» Journal of Energy Resources Technology, vol. 128, nº 4, pp. 268-274, 2006.
[7] C. Wang, W. Chen, Z. Wu, J. Li y G. Liu, «Stick–Slip Characteristics of Drill Strings and the Related Drilling Parameters Optimization.,» Processes, vol. 11, nº 2, p. 2783, 2023.
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