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An Algebraic Approach for Identification of Rotordynamic Parameters in Bearings with Linearized Force Coefficients

Author

Listed:
  • José Gabriel Mendoza-Larios

    (Institute of Industrial and Automotive Engineering, Technological University of the Mixteca, Huajuapan de León 69000, Oaxaca, Mexico)

  • Eduardo Barredo

    (Institute of Industrial and Automotive Engineering, Technological University of the Mixteca, Huajuapan de León 69000, Oaxaca, Mexico)

  • Manuel Arias-Montiel

    (Institute of Electronics and Mechatronics, Technological University of the Mixteca, Huajuapan de León 69000, Oaxaca, Mexico)

  • Luis Alberto Baltazar-Tadeo

    (Department of Mechanical Engineering, National Technological of Mexico—CENIDET, Cuernavaca 62490, Morelos, Mexico)

  • Saulo Jesús Landa-Damas

    (Department of Mechanical Engineering, National Technological of Mexico—CENIDET, Cuernavaca 62490, Morelos, Mexico)

  • Ricardo Tapia-Herrera

    (CONACYT—Technological University of the Mixteca, Huajuapan de León 69000, Oaxaca, Mexico)

  • Jorge Colín-Ocampo

    (Department of Mechanical Engineering, National Technological of Mexico—CENIDET, Cuernavaca 62490, Morelos, Mexico)

Abstract

In this work, a novel methodology for the identification of stiffness and damping rotordynamic coefficients in a rotor-bearing system is proposed. The mathematical model for the identification process is based on the algebraic identification technique applied to a finite element (FE) model of a rotor-bearing system with multiple degree-of-freedom (DOF). This model considers the effects of rotational inertia, gyroscopic moments, shear deformations, external damping and linear forces attributable to stiffness and damping parameters of the supports. The proposed identifier only requires the system’s vibration response as input data. The performance of the proposed identifier is evaluated and analyzed for both schemes, constant and variable rotational speed of the rotor-bearing system, and numerical results are obtained. In the presented results, it can be observed that the proposed identifier accurately determines the stiffness and damping parameters of the bearings in less than 0.06 s. Moreover, the identification procedure rapidly converges to the estimated values in both tested conditions, constant and variable rotational speed.

Suggested Citation

  • José Gabriel Mendoza-Larios & Eduardo Barredo & Manuel Arias-Montiel & Luis Alberto Baltazar-Tadeo & Saulo Jesús Landa-Damas & Ricardo Tapia-Herrera & Jorge Colín-Ocampo, 2021. "An Algebraic Approach for Identification of Rotordynamic Parameters in Bearings with Linearized Force Coefficients," Mathematics, MDPI, vol. 9(21), pages 1-21, October.
  • Handle: RePEc:gam:jmathe:v:9:y:2021:i:21:p:2747-:d:667776
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    Citations

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    Cited by:

    1. Saulo Jesús Landa-Damas & Jorge Colín-Ocampo & Andrés Blanco-Ortega & Arturo Abúndez-Pliego & José Gabriel Mendoza-Larios & Luis Alberto Baltazar-Tadeo & Demetrio Pérez-Vigueras, 2023. "A Simplified Model for the On-Line Identification of Bearing Direct-Dynamic Parameters Based on Algebraic Identification (AI)," Mathematics, MDPI, vol. 11(14), pages 1-23, July.

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