MODERNIZATION OF THE LABORATORY BENCH FOR RESEARCHING THE STRESS AND DEFORMATION STATE OF THE MODEL OF THE DRILL STRING SECTION

Authors

  • R. V. Rachkevych Ivano-Frankivsk National Technical University of Oil and Gas, 15 Karpatska Street Ivano-Frankivsk Ukraine, 76019
  • I. I. Chudyk Ivano-Frankivsk National Technical University of Oil and Gas, 15 Karpatska Street Ivano-Frankivsk Ukraine, 76019
  • V. R. Kharun Ivano-Frankivsk National Technical University of Oil and Gas, 15 Karpatska Street Ivano-Frankivsk Ukraine, 76019
  • I. O. Rachkevych Івано-Франківський медичний університет; 76018, м. Івано-Франківськ, вул. Галицька, 2

DOI:

https://doi.org/10.31471/1993-9868-2023-1(39)-42-49

Keywords:

drill string model; laboratory test bench; stress-strain state

Abstract

Evaluation of drill strings stress-strain state during their operation in the wells with random change of zenith and azimuth angles, non casing sections of well walls and dog-legs is very important scientific and practical prob-lem. One of the methods of its solution is the physical modeling of the "drill string – wellbore" system. On the basis of scientific works analysis in mentioned above field, aim of this article is formulated as modernization of the la-boratory test bench existing construction with the aim of explore stress-strain state of the drill string models in the wells with random curved axles with consideration of tension or compression forces and torque. In particular, support unit was rebuilt and made of steel profiles as rigid truss. Restriction of displacement of the one end of the drill string model was get as result. Also, loading unit is modified by the additional pulleys. As result we got possibility to load opposite end of the drill string model by the tension or compression axial force. Resistive foil strain gauge method is used for indirect measuring of the stresses in the drill string model cross section. Statistical anal-ysis of the results was operated by the Dixon’s criterion that is used for small experimental data samples. It gave possibility to separate incorrect values of the voltage on the resistive foil strain gauges and doesn’t use them for calculation of the stresses in the cross section of the drill pipe or its model. Was mentioned that further improving of the test bench construction will consist of adding of the electric motor for possibility of rotation of the drill string model and providing of the experiment in the dynamic mode.

References

Rachkevych R.V. Drill string intense-deformed state on well section with “dog-legs”. Journal of hydrocarbon power engineering. 2014. Vol. 1, Iss. 2. P. 89–95.

Raçkevıç R.V., Çudık İ.İ., Raçkevıç İ.A., Al-Tanakçı Ahmed. Kaverna ilə quyu intervalında qazma kəmərinin sahəsinin gərginlik-deformasiya vəziyyətinin təhlili. SOCAR Proceedings Special Issue. 2022. No. 2. P. 001 – 008. [in Azerbaijan]

Vahid Vaziri, Ibukunolu O. Oladunjoye, Marcin Kapitaniak, Summet S. Alhale, Marian Wiercigroch. Parametric analysis of a sliding-mode controller to suppress drill-string stick-slip vibration. Meccanica. 2020. No 55. P. 2475–2492.

James D.J. MacLean, Vahid Vaziri, Sumeet S. Aphale, Marian Wiercigroch. Feedback control method to suppress stick-slip in drill-strings featuring delay and actuation constraints. The European Physical Journal. Spec. Top. 2021. No 230. P. 3627 – 3642.

Yang Liu, Joseph Paez Chavez, Rulston De Sa, Scott Walker. Numerical and experimental studies of stick-slip oscillations in drill-strings. Nonlinear Dyn. 2017. No 9. P. 2959 – 2978.

Saket Srivastava, Catalin Teodoriu. An extensive review of laboratory scaled experimental setups for studying drill string vibrations and the way forward. Journal of Petroleum Science and Engineering. 2019. No 182. 10 р.

Khulief Y. A., Al-Sulaiman F. A. Labor-atory investigation of drillstring vibrations. Pro-ceedings of the Institution of Mechanical Engi-neers, Part C: Journal of Mechanical Engineer-ing Science. 2009. Vol. 223, Iss. 10. P. 2249 – 2262.

Fushen Ren, Baojin Wang, Lei Zhao, Anhe Zhu. Experimental Investigation and Analysis of Dynamic Buckling of Drill String in Horizontal Well. Hindawi Shock and Vibration. 2017. 15 p.

Rachkevych R., Ivasiv V., Bui V., Yurych L., Rachkevych I. Laboratory research of the stress-strain state of the drill string in the local bend of the well. Technology audit and production reserves. 2019. No 1/1 (45). P. 15 – 24.

Rachkevych І.О. Tryvymirne modeliu-vannia napruzheno-deformovanoho stanu kolony burylnykh trub u kryvoliniinomu stovburi sverd-lovyny. Science – the Future of the Word: The 5th International scientific and practical conference (Prague, June 23–24. 2020). Prague, 2020. P. 131–136. [in Ukrainian]

Sverdan P.L. Vyshcha matematyka. Matematychnyi analiz i teoriia ymovirnostei: Pidruchnyk. Kyiv, 2008. 450 р. [in Ukrainian]

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Published

30.06.2023

How to Cite

Rachkevych, R. V., Chudyk, I. I., Kharun, V. R., & Rachkevych, I. O. (2023). MODERNIZATION OF THE LABORATORY BENCH FOR RESEARCHING THE STRESS AND DEFORMATION STATE OF THE MODEL OF THE DRILL STRING SECTION. Oil and Gas Power Engineering, (1(39), 42–49. https://doi.org/10.31471/1993-9868-2023-1(39)-42-49

Issue

No. 1(39) (2023): Oil and Gas Power Engineering

Section

MATERIALS, STRUCTURES AND EQUIPMENT OF PETROLEUM COMPLEX FACILITIES

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