Abstract
The article deals with the issue of installing a mechanical infinitely variable transmission with an electric drive in the top drive system of drilling rigs. The disadvantages and advantages of the top drives existing design of drilling rigs in electric and hydraulic versions are considered. The results of the external characteristics calculation of the top drive are presented, showing that the use of Blagonravov mechanical infinitely variable transmission as a reduction unit will provide a more complete use of the electric motor power. At the same time, the dimensions of the transmission will not exceed the dimensions of the existing top drives of the corresponding power.
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References
Gusman, A., Porozhsky, K.: Drilling Complexes. Modern Technologies and Equipment. UGGGA Publishing House, Yekaterinburg (2002)
Vadetsky, Y.: Drilling of Oil and Gas Wells. Publishing Center “Academy”, Moscow (2011)
Yamaliev, V., Galiev, K.: Analysis of top drive systems. In: Modern Technologies in Oil and Gas Business, pp. 412–415. Ufa State Oil Technical University, Ufa (2019)
Belousov, E., Grigorev, M., Khryukin, D.: An electric drive for a drilling-rig top-drive system. Russ. Electr. Eng. 93(2), 76–80 (2022)
Hoodorozhkov, S., Koreshev, V., Golovkin, A.: (2018) Two-stage gearbox of the upper power drive of a drilling rig. Patent RU. No. 2646289 (2018)
Babayan, E., Chernenko, A.: Engineering Calculations During Drilling. Infra Engineering, Vologda (2016)
Milovzorov, G., Vasil’eva, O.: Improvement of the gearbox for the top drive system of the drilling rig. In: Actual Problems of Science and Technology, pp. 116–118. Izhevsk State Technical University Named After M.T. Kalashnikov, Izhevsk (2020)
Syzrantseva, K., Ilinykh, V., Kolbasin, D.: Evaluation of the probability of failure of the gearbox of the top drive system of the drilling rig, taking into account the mode of its operation. News of higher educational institutions. Oil and Gas 3(135), 127–134 (2019)
Nikitin, S., Grachev, A., Nekrasova, A.: Investigation of the dynamics of the process of drilling wells with a “SVP” rig using a simplified dynamic model. Mod. Eng.: Sci. Educ. 8, 755–770 (2019)
Ashcheulov, A., Nikitin, S., Khoroshanskay, A.: Statistical research of drilling rig’s top drive stress loading. Int. J. Appl. Eng. Res. 10(19), 40021–40026 (2015)
Epifanov, O., Grechushkin, Y., Salova, I.: Electromagnetic Torque and its ripples in a unipolar brushless torque motor with permanent magnets. Russ. Electr. Eng. 92(1), 24–31 (2021)
Sun, Y., Shi, Y., Wang, Q., Yao, Z.: Study on speed characteristics of hydraulic top drive under fluctuating load. J. Pet. Sci. Eng. 167 (2018)
Nikolsky, E., Koreshev, V., Hoodorozhkov, S., Golovkin, A.: Multi-stage gearbox of the upper power drive of a drilling rig. Patent RU. No. 2646288 (2018)
Blagonravov, A.: Mechanical stepless transmission Patent RU No. 2211971 (2003)
Blagonravov, A.: Mechanical stepless transmission. Patent RU No. 2334143 (2008)
Blagonravov, A.: Mechanical Stepless Transmissions. Ural Branch of the Russian Academy of Sciences, Yekaterinburg (2005)
Yurkevich, A., Tereshin, A., Soldatkin, V.: Experimental characteristics of a mechanical continuously variable transmission with internal power functions. Sci. Technol. 20(4), 310–319 (2021)
Yurkevich, A., Tereshin, V., Soldatkin, A.: Electronic control system of continuously variable type of mechanical transmission named after Blagonravov. In: International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon). IEEE Xplore. Vladivostok (2019)
Hoodorozhkov, S., Yurkevich, A.: Theoretical and experimental study of the vehicle’s dynamics equipped with the mechanical stepless transmission. In: Guda, A. (eds) Networked Control Systems for Connected and Automated Vehicles. NN 2022. Lecture Notes in Networks and Systems, vol. 509, pp. 787–796. Springer, Cham (2023)
Blagonravov, A.: External characteristic of a mechanical transformer with oscillation of the internal components. Russ. Eng. Res. 31(10), 928–932 (2011)
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Hoodorozhkov, S.I., Yurkevich, A.V. (2024). Increasing the Efficiency of Drilling Rigs by Using the Blagonravov IVT in the Top Drive System. In: Evgrafov, A.N. (eds) Advances in Mechanical Engineering. MMESE 2023. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-031-48851-1_17
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DOI: https://doi.org/10.1007/978-3-031-48851-1_17
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