Complex analysis of the vessel's shaft

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Abstract

The article considers the impact of operating loads on a ship's shaft. Preliminary static, dynamic, modal and harmonic calculations were performed in the finite element modeling environment. Data on the shaft's natural vibration frequencies, as well as load values in a given frequency range and structure deformations in the operating mode were obtained. A complex analysis of the ship's shaft has been carried out. Data on the frequencies of natural vibrations of the shaft, the values of loads in a given frequency range and deformation of the structure in the operating mode were obtained. According to the data obtained, it is possible to judge the change in the state of the structure during operation.

About the authors

Artem M. Fishchenko

Admiral Ushakov Maritime State University

Author for correspondence.
Email: fishenko2012@mail.ru

Postgraduate Student of the Department of Operation of Maritime Mechanical Systems

Russian Federation, Novorossiysk

Anna V. Grinek

LLC «Tazmar»

Email: grinyokann@gmail.com

Candidate of Science (Engineering), Associate Professor, Design Engineer

Russian Federation, St. Petersburg

Igor' P. Boychuk

LLC «Sigmatek»

Email: igor_boichuk@mail.ru

Candidate of Science (Engineering), Associate Professor, CEO

Russian Federation, St. Petersburg

References

  1. Budiarto, А. H. Inventory Shaft and Propeller of Traditional Vessels in Gresik-East Java / А. H. Budiarto, Arif Winarno, Putri D. Setyorini // IOP Conference Series Earth and Environmental Science. – 2021. – vol. 750, no 1. – p. 012061. doi: 10.1088/1755-1315/750/1/012061.
  2. Koker, N. De. Design limit exceedance probability of ice loading on propulsion shaft of a polar research vessel / N. De. Koker, A. Bekker, B. Steyn // Mechanical Systems and Signal Processing. – 2024. – vol. 210. – p. 111164. doi: 10.1016/j.ymssp.2024.111164.
  3. Kim, D. Feature Attribution Analysis to Quantify the Impact of Oceanographic and Maneuverability Factors on Vessel Shaft Power Using Explainable Tree-Based Model / D. Kim, M. P. Handayani, S. Lee, J. Lee // Sensors. – 2023. – vol. 23, no. 3. – p. 1072. doi: 10.3390/s23031072.
  4. Гаврилюк, Р. Н. Исследование нагружения подшипников судового валопровода / Р. Н. Гаврилюк // Журнал университета водных коммуникаций. – 2011. – №1. – С. 48-54.
  5. Руководящий документ РД 5.4307. Валопроводы судовые. Правила и нормы проектирования
  6. Guler, S. Harmonic response analysis of an impeller of a gas turbine engine which modelled by using high entropy alloy materials / S. Guler // Gümüşhane Üniversitesi Fen Bilimleri Enstitüsü Dergisi. – 2022. – vol. 12, no. 1. – pp.54-67. doi: 10.17714/gumusfenbil.889420.
  7. Wan, Yu. The modal and harmonic response analysis of final superheater based on workbench / Yu Wan // IOP Conf. Series: Earth and Environmental Science. – 2021. – vol. 675. – p. 012177. doi: 10.1088/1755-1315/675/1/012177.
  8. Yucel, Adil. Numerical and Experimental Modal Analyses of Inclined Supported Bridge Wing Structures / Adil Yucel // International Journal of Acoustics and Vibration. – 2022. – vol. 27, no. 1, pp. 56-66. doi: 10.20855/ijav.2022.27.11863.
  9. Grinek, A. V. Predictive diagnostics of a ship’s propeller shaft using a digital twin / A. V. Grinek, I. P. Boychuk, A. M. Fishchenko, D. N. Perelygin and N. I. Alfimova // Russian Engineering Research. – 2023. – vol. 43, no. 1. – pp. 99-102. doi: 10.3103/S1068798X23020120.
  10. Yıldırım, S. Harmonic Response Analysis of Double Bridge Crane System on Multi Carriages / S. Yıldırım, E. Esim // 5th International Conference on Engineering and Natural Sciences / Prague, Czech Republic. – 2019. – pp. 90-96.
  11. Халявкин, А. А. Оценка влияния упругих свойств подшипников скольжения дейдвудного устройства судна на значение коэффициента жесткости / А. А. Халявкин, С. А. Макеев, Д. В. Лошадкин, В. А. Мамонтов, Саламех Али, Д. О. Шацков, А. Я. Ауслендер // Вестник Астраханского государственного технического университета. Серия: Морская техника и технология. – 2020. – № 1. – С. 83–93. doi: 10.24143/2073-1574-2020-1-83-93.

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Copyright (c) 2024 Fishchenko A.M., Grinek A.V., Boychuk I.P.

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Journal of Dynamics and Vibroacoustics

ISSN 2409-4579 (Online)

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