Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration

D. E. Rivera-Arreola; J. C. Gómez-Mancilla; T. Hernández-Cortés; H. F. Abundis-Fong

doi:10.1007/978-3-030-45402-9_18

Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration

D. E. Rivera-Arreola, J. C. Gómez-Mancilla, T. Hernández-Cortés, H. F. Abundis-Fong

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Inherent to turbomachinery are some common operational problems, such as the critical amplitude of motion that the machine may experience when passing through one or more of its natural frequencies. High range of vibration levels can be catastrophic to the equipment and its attenuation is needed to keep the system working healthily. To that end, the present work proposes the use of nonlinear active control techniques applied to a single hybrid short journal bearing using a particular rotor-bearing system configuration, which not require the assumption of an exact symmetry in the operation of the two journal bearings located at both ends of the rigid shaft such as the classical Jeffcott rotor model. The analysis is focused by reducing the amplitude shaft vibration of the rigid rotor crossing its first resonance. The oil injection port is modeled by mean of the Dirac Delta Function.

Idioma original	Inglés
Páginas (desde-hasta)	179-192
Número de páginas	14
Publicación	Mechanisms and Machine Science
Volumen	86
DOI	https://doi.org/10.1007/978-3-030-45402-9_18
Estado	Publicada - 2020
Publicado de forma externa	Sí

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10.1007/978-3-030-45402-9_18

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Rivera-Arreola, D. E., Gómez-Mancilla, J. C., Hernández-Cortés, T., & Abundis-Fong, H. F. (2020). Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration. Mechanisms and Machine Science, 86, 179-192. https://doi.org/10.1007/978-3-030-45402-9_18

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title = "Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration",

abstract = "Inherent to turbomachinery are some common operational problems, such as the critical amplitude of motion that the machine may experience when passing through one or more of its natural frequencies. High range of vibration levels can be catastrophic to the equipment and its attenuation is needed to keep the system working healthily. To that end, the present work proposes the use of nonlinear active control techniques applied to a single hybrid short journal bearing using a particular rotor-bearing system configuration, which not require the assumption of an exact symmetry in the operation of the two journal bearings located at both ends of the rigid shaft such as the classical Jeffcott rotor model. The analysis is focused by reducing the amplitude shaft vibration of the rigid rotor crossing its first resonance. The oil injection port is modeled by mean of the Dirac Delta Function.",

keywords = "Dirac delta function, Hybrid-short journal bearing system, PID controller, Reynolds equation, State-space",

author = "Rivera-Arreola, {D. E.} and G{\'o}mez-Mancilla, {J. C.} and T. Hern{\'a}ndez-Cort{\'e}s and Abundis-Fong, {H. F.}",

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year = "2020",

doi = "10.1007/978-3-030-45402-9_18",

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Rivera-Arreola, DE, Gómez-Mancilla, JC, Hernández-Cortés, T & Abundis-Fong, HF 2020, 'Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration', Mechanisms and Machine Science, vol. 86, pp. 179-192. https://doi.org/10.1007/978-3-030-45402-9_18

Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration. / Rivera-Arreola, D. E.; Gómez-Mancilla, J. C.; Hernández-Cortés, T. et al.
En: Mechanisms and Machine Science, Vol. 86, 2020, p. 179-192.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration

AU - Rivera-Arreola, D. E.

AU - Gómez-Mancilla, J. C.

AU - Hernández-Cortés, T.

AU - Abundis-Fong, H. F.

PY - 2020

Y1 - 2020

N2 - Inherent to turbomachinery are some common operational problems, such as the critical amplitude of motion that the machine may experience when passing through one or more of its natural frequencies. High range of vibration levels can be catastrophic to the equipment and its attenuation is needed to keep the system working healthily. To that end, the present work proposes the use of nonlinear active control techniques applied to a single hybrid short journal bearing using a particular rotor-bearing system configuration, which not require the assumption of an exact symmetry in the operation of the two journal bearings located at both ends of the rigid shaft such as the classical Jeffcott rotor model. The analysis is focused by reducing the amplitude shaft vibration of the rigid rotor crossing its first resonance. The oil injection port is modeled by mean of the Dirac Delta Function.

AB - Inherent to turbomachinery are some common operational problems, such as the critical amplitude of motion that the machine may experience when passing through one or more of its natural frequencies. High range of vibration levels can be catastrophic to the equipment and its attenuation is needed to keep the system working healthily. To that end, the present work proposes the use of nonlinear active control techniques applied to a single hybrid short journal bearing using a particular rotor-bearing system configuration, which not require the assumption of an exact symmetry in the operation of the two journal bearings located at both ends of the rigid shaft such as the classical Jeffcott rotor model. The analysis is focused by reducing the amplitude shaft vibration of the rigid rotor crossing its first resonance. The oil injection port is modeled by mean of the Dirac Delta Function.

KW - Dirac delta function

KW - Hybrid-short journal bearing system

KW - PID controller

KW - Reynolds equation

KW - State-space

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JO - Mechanisms and Machine Science

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Attenuation of the Amplitude Vibration Level by Using Nonlinear Active Control Techniques Applied to a Hybrid Short Journal Bearing Using a Particular Rotor-Bearing System Configuration

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