Optimization for vibration analysis in rotating machines

J. Alan Calderón Ch; Julio C. Tafur Sotelo; Benjamín Barriga Gamarra; Jorge Alencastre; John Lozano; Rodrigo Urbizagástegui; Gonzalo Solano; Daniel Menacho

doi:10.24084/repqj20.315

Optimization for vibration analysis in rotating machines

J. Alan Calderón Ch, Julio C. Tafur Sotelo, Benjamín Barriga Gamarra, Jorge Alencastre, John Lozano, Rodrigo Urbizagástegui, Gonzalo Solano, Daniel Menacho

Research output: Contribution to journal › Article › peer-review

Abstract

A not stable mechanical movement transmission between systems produces equilibrium losses, such as a rotor of motors that are coupled in rotating machines. This can be studied as a disturbance “vibration” either as characteristic of the movement transmission due to controlled displacement over rotors, which transmits the movement. Therefore, in this research is presented an analysis for an optimal control of the rotor axis displacement that includes “vibration” as the part of the movement transmission. It implies mathematical modelling and specific sensors selections to correlate the vibration in this control task. Furthermore, in order to verify the proposed analysis, it was simulated and tested in a hybrid magnetic bearing system.

Original language	English
Pages (from-to)	369-373
Number of pages	5
Journal	Renewable Energy and Power Quality Journal
Volume	20
DOIs	https://doi.org/10.24084/repqj20.315
State	Published - Sep 2022

Keywords

fast sensors
magnetic bearings
optimization
vibration

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.24084/repqj20.315

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title = "Optimization for vibration analysis in rotating machines",

abstract = "A not stable mechanical movement transmission between systems produces equilibrium losses, such as a rotor of motors that are coupled in rotating machines. This can be studied as a disturbance “vibration” either as characteristic of the movement transmission due to controlled displacement over rotors, which transmits the movement. Therefore, in this research is presented an analysis for an optimal control of the rotor axis displacement that includes “vibration” as the part of the movement transmission. It implies mathematical modelling and specific sensors selections to correlate the vibration in this control task. Furthermore, in order to verify the proposed analysis, it was simulated and tested in a hybrid magnetic bearing system.",

keywords = "fast sensors, magnetic bearings, optimization, vibration",

author = "\{Calder{\'o}n Ch\}, \{J. Alan\} and \{Tafur Sotelo\}, \{Julio C.\} and Gamarra, \{Benjam{\'i}n Barriga\} and Jorge Alencastre and John Lozano and Rodrigo Urbizag{\'a}stegui and Gonzalo Solano and Daniel Menacho",

year = "2022",

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doi = "10.24084/repqj20.315",

language = "English",

volume = "20",

pages = "369--373",

journal = "Renewable Energy and Power Quality Journal",

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TY - JOUR

T1 - Optimization for vibration analysis in rotating machines

AU - Calderón Ch, J. Alan

AU - Tafur Sotelo, Julio C.

AU - Gamarra, Benjamín Barriga

AU - Alencastre, Jorge

AU - Lozano, John

AU - Urbizagástegui, Rodrigo

AU - Solano, Gonzalo

AU - Menacho, Daniel

PY - 2022/9

Y1 - 2022/9

N2 - A not stable mechanical movement transmission between systems produces equilibrium losses, such as a rotor of motors that are coupled in rotating machines. This can be studied as a disturbance “vibration” either as characteristic of the movement transmission due to controlled displacement over rotors, which transmits the movement. Therefore, in this research is presented an analysis for an optimal control of the rotor axis displacement that includes “vibration” as the part of the movement transmission. It implies mathematical modelling and specific sensors selections to correlate the vibration in this control task. Furthermore, in order to verify the proposed analysis, it was simulated and tested in a hybrid magnetic bearing system.

AB - A not stable mechanical movement transmission between systems produces equilibrium losses, such as a rotor of motors that are coupled in rotating machines. This can be studied as a disturbance “vibration” either as characteristic of the movement transmission due to controlled displacement over rotors, which transmits the movement. Therefore, in this research is presented an analysis for an optimal control of the rotor axis displacement that includes “vibration” as the part of the movement transmission. It implies mathematical modelling and specific sensors selections to correlate the vibration in this control task. Furthermore, in order to verify the proposed analysis, it was simulated and tested in a hybrid magnetic bearing system.

KW - fast sensors

KW - magnetic bearings

KW - optimization

KW - vibration

UR - https://www.scopus.com/pages/publications/85136172357

U2 - 10.24084/repqj20.315

DO - 10.24084/repqj20.315

M3 - Article

AN - SCOPUS:85136172357

SN - 2172-038X

VL - 20

SP - 369

EP - 373

JO - Renewable Energy and Power Quality Journal

JF - Renewable Energy and Power Quality Journal

ER -

Optimization for vibration analysis in rotating machines

Abstract

Keywords

UN SDGs

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