How to cite this paper
Shatskyi, I., Velychkovych, A., Vytvytskyi, I & Seniushkovych, M. (2019). Analytical models of contact interaction of casing centralizers with well wall.Engineering Solid Mechanics, 7(4), 355-366.
Refrences
Aleksandrov, M. M. (1982). Interaction of the pipe columns with the walls of the well. Moscow: Nedra.
Bedzir, A. A., Shatskii, I. P., & Shopa, V. M. (1995). Nonideal contact in a composite shell structure with a deformable filler. International Applied Mechanics, 31(5), 351–354.
Casing Accessories. (2016). Cement integrity starts here. Well construction. Weatherford.
Fryz, I. M. (2003). Centralizer for casing. Kiev: Interpres Ltd.
Gere, J., & Goodno, B. (2012). Mechanics of materials. Stamford: Cengage Learning.
Larin, P. A., Gutorov, Yu. A., & Yakunina, S. N. (2013). Problems of qualitative cementing of wells with intricate profile. Oktiabrskyi: RKNTC.
Levchuk, K. G. (2018). Engineering tools and technologies of freeing of the stuck metal drilling string. Metallofizika i Noveishie Tekhnologii, 40(1), 45–137.
Liu, G., & Weber, L. D. (2012). Centralizer Selection Placement Optimization. SPE Deepwater Drilling and Completions Conference. Society of Petroleum Engineers. Galveston, Texas, USA.
Jawed, M. K., Novelia A., & O’Reilly, O. M. (2018). Kirchhoff’s theory of an elastic rod. In: A Primer on the Kinematics of Discrete Elastic Rods. SpringerBriefs in Applied Sciences and Technology. Springer, Cham.
Kozhevnikov, E. V., Nikolaev, N. I., Rozentsvet, A. V., & Lyrchikov, A. A. (2015). Entering equipment for casing columns in sidetrack cementing. Bulletin of PNRPU. Geology. Oil & Gas Engineering & Mining, 16, 54–60.
Kotskulych, Ya. S., Seniushkovych, M. V., Martsynkiv, O. B., & Vytvytskyi, I. I. (2016). Casing string centering in directional wells. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 2, 23–30.
Kryzhanivskyi, Ye. I., Paliichuk, I. I., & Malyk, H. D. (2018). Large deformations of the casing string under its own weight in the curvilinear well. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 6, 72–79.
Money Tuli, Balvinder Singh, & Dr Rahul Malhotra. (2018). Design and analysis of centralizer used in wellbore. International Journal of Academic Research and Development, 13(2), 1448–1453.
Mossakowskii, V. I., Hudramovich, V. S., & Makeev, E. M. (1978). Contact problems in the theory of shells and rods. Moscow: Mashinostroienie.
Neto, A. G., Pimenta, P. M., & Wriggers, P. (2014). Contact between rolling beams and flat surfaces. International Journal for Numerical Methods in Engineering, 97(9), 683-706.
Popadyuk, І. Yo., Shats’kyi І. P., Shopa V. М., & Velychkovych A. S. (2016). Frictional interaction of a cylindrical shell with deformable filler under nonmonotonic loading. Journal of Mathematical Sciences, 215(2), 243–253.
Rekach, V. G. (2010). Guide to the solution of tasks of the applied theory of elasticity. Moscow: Librokom.
Renpu, W. (2011). Advanced Well Completion Engineering. 3rd edition. Elsevier Inc.
Shatskyi, I. P., Biletskyi, Ya. S., & Vytvytskyi, I. I. (2014). Two-side estimates of rigidity and strength of casing centralizer. Odes’kyi politekhnichnyi universytet. Pratsi, 1, 68–73.
Shats’kyi, I. P., Lyskanych, O. M., & Kornuta, V. A. (2016). Combined deformation conditions for fatigue damage indicator and well-drilling tool joint. Strength of Materials, 48(3), 469–472.
Shats’kyi, I. P. (2005). Closure of a longitudinal crack in a shallow cylindrical shell in bending. Materials Science, 41(2), 186–191.
Shats’kyi, I. P., & Makoviichuk, M. V. (2005). Сontact interaction of crack lips in shallow shells in bending with tension. Materials Science, 41(4), 486–494.
Shats’kyi, I. P., & Makoviichuk, M. V. (2009). Analysis of the limiting state of cylindrical shells with cracks with regard for the contact of crack lips. Strength of Materials, 41(5), 560–565.
Shatskii, I. P., & Makoviichuk, N. V. (2011). Effect of closure of collinear cracks on the stress-strain state and the limiting equilibrium of bent shallow shells. Journal of Applied Mechanics and Technical Physics, 52(3), 464–470.
Vytvytskyi, I. I., Seniushkovych, M. V., & Shatskyi, I. P. (2017). Calculation of distance between elastic-rigid centralizers of casing. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 5, 28–35.
Vlasiy, O., Mazurenko, V., Ropyak, L., & Rogal, O. (2017). Improving the aluminum drill pipes stability by optimizing the shape of protector thickening. Eastern-European Journal of Enterprise Technologies, 1(7), 25–31.
Tikhonov, V. S., Bukashkina, O. S., & Gandikota, R. (2014). Numerical simulation of casing centralization. In: 11th World Congress on Computational Mechanics (WCCM XI) and 5th European Conference on Computational Mechanics (ECCM V) and 6th European Conference on Computational Fluid Dynamics (ECFD VI). Barcelona, Spain.
Velichkovich, A. S., & Dalyak, Т. M. (2015). Assessment of stressed state and performance characteristics of jacketed spring with a cut for drill shock absorber. Chemical and Petroleum Engineering, 51(3), 188–193.
Velichkovich, A., Dalyak, T., & Petryk, I. (2018). Slotted shell resilient elements for drilling shock absorbers. Oil & Gas Science and Technology – Rev. IFP Energies nouvelles, 73 (34), 1–8.
Bedzir, A. A., Shatskii, I. P., & Shopa, V. M. (1995). Nonideal contact in a composite shell structure with a deformable filler. International Applied Mechanics, 31(5), 351–354.
Casing Accessories. (2016). Cement integrity starts here. Well construction. Weatherford.
Fryz, I. M. (2003). Centralizer for casing. Kiev: Interpres Ltd.
Gere, J., & Goodno, B. (2012). Mechanics of materials. Stamford: Cengage Learning.
Larin, P. A., Gutorov, Yu. A., & Yakunina, S. N. (2013). Problems of qualitative cementing of wells with intricate profile. Oktiabrskyi: RKNTC.
Levchuk, K. G. (2018). Engineering tools and technologies of freeing of the stuck metal drilling string. Metallofizika i Noveishie Tekhnologii, 40(1), 45–137.
Liu, G., & Weber, L. D. (2012). Centralizer Selection Placement Optimization. SPE Deepwater Drilling and Completions Conference. Society of Petroleum Engineers. Galveston, Texas, USA.
Jawed, M. K., Novelia A., & O’Reilly, O. M. (2018). Kirchhoff’s theory of an elastic rod. In: A Primer on the Kinematics of Discrete Elastic Rods. SpringerBriefs in Applied Sciences and Technology. Springer, Cham.
Kozhevnikov, E. V., Nikolaev, N. I., Rozentsvet, A. V., & Lyrchikov, A. A. (2015). Entering equipment for casing columns in sidetrack cementing. Bulletin of PNRPU. Geology. Oil & Gas Engineering & Mining, 16, 54–60.
Kotskulych, Ya. S., Seniushkovych, M. V., Martsynkiv, O. B., & Vytvytskyi, I. I. (2016). Casing string centering in directional wells. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 2, 23–30.
Kryzhanivskyi, Ye. I., Paliichuk, I. I., & Malyk, H. D. (2018). Large deformations of the casing string under its own weight in the curvilinear well. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 6, 72–79.
Money Tuli, Balvinder Singh, & Dr Rahul Malhotra. (2018). Design and analysis of centralizer used in wellbore. International Journal of Academic Research and Development, 13(2), 1448–1453.
Mossakowskii, V. I., Hudramovich, V. S., & Makeev, E. M. (1978). Contact problems in the theory of shells and rods. Moscow: Mashinostroienie.
Neto, A. G., Pimenta, P. M., & Wriggers, P. (2014). Contact between rolling beams and flat surfaces. International Journal for Numerical Methods in Engineering, 97(9), 683-706.
Popadyuk, І. Yo., Shats’kyi І. P., Shopa V. М., & Velychkovych A. S. (2016). Frictional interaction of a cylindrical shell with deformable filler under nonmonotonic loading. Journal of Mathematical Sciences, 215(2), 243–253.
Rekach, V. G. (2010). Guide to the solution of tasks of the applied theory of elasticity. Moscow: Librokom.
Renpu, W. (2011). Advanced Well Completion Engineering. 3rd edition. Elsevier Inc.
Shatskyi, I. P., Biletskyi, Ya. S., & Vytvytskyi, I. I. (2014). Two-side estimates of rigidity and strength of casing centralizer. Odes’kyi politekhnichnyi universytet. Pratsi, 1, 68–73.
Shats’kyi, I. P., Lyskanych, O. M., & Kornuta, V. A. (2016). Combined deformation conditions for fatigue damage indicator and well-drilling tool joint. Strength of Materials, 48(3), 469–472.
Shats’kyi, I. P. (2005). Closure of a longitudinal crack in a shallow cylindrical shell in bending. Materials Science, 41(2), 186–191.
Shats’kyi, I. P., & Makoviichuk, M. V. (2005). Сontact interaction of crack lips in shallow shells in bending with tension. Materials Science, 41(4), 486–494.
Shats’kyi, I. P., & Makoviichuk, M. V. (2009). Analysis of the limiting state of cylindrical shells with cracks with regard for the contact of crack lips. Strength of Materials, 41(5), 560–565.
Shatskii, I. P., & Makoviichuk, N. V. (2011). Effect of closure of collinear cracks on the stress-strain state and the limiting equilibrium of bent shallow shells. Journal of Applied Mechanics and Technical Physics, 52(3), 464–470.
Vytvytskyi, I. I., Seniushkovych, M. V., & Shatskyi, I. P. (2017). Calculation of distance between elastic-rigid centralizers of casing. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 5, 28–35.
Vlasiy, O., Mazurenko, V., Ropyak, L., & Rogal, O. (2017). Improving the aluminum drill pipes stability by optimizing the shape of protector thickening. Eastern-European Journal of Enterprise Technologies, 1(7), 25–31.
Tikhonov, V. S., Bukashkina, O. S., & Gandikota, R. (2014). Numerical simulation of casing centralization. In: 11th World Congress on Computational Mechanics (WCCM XI) and 5th European Conference on Computational Mechanics (ECCM V) and 6th European Conference on Computational Fluid Dynamics (ECFD VI). Barcelona, Spain.
Velichkovich, A. S., & Dalyak, Т. M. (2015). Assessment of stressed state and performance characteristics of jacketed spring with a cut for drill shock absorber. Chemical and Petroleum Engineering, 51(3), 188–193.
Velichkovich, A., Dalyak, T., & Petryk, I. (2018). Slotted shell resilient elements for drilling shock absorbers. Oil & Gas Science and Technology – Rev. IFP Energies nouvelles, 73 (34), 1–8.