Noninterference identification of rotating blade vibration

P. Wang; R. Gao; Z. Fan; D. Karg; K. Kwolek; A. Consiglio

Noninterference identification of rotating blade vibration

P. Wang
, R. Gao
, Z. Fan
, D. Karg
, K. Kwolek
, A. Consiglio

Electrical and Computer Engineering

Producción científica: Paper › revisión exhaustiva

Resumen

The paper presents a non-interference measurement and diagnostic method for the parametric identification of vibrations in rotating engine blades, based on blade tip-timing (BTT) measured by optical sensors. Because of the inherent under-sampling nature associated with BTT measurement, effective algorithms are needed to extract key vibration parameters such as frequency and amplitude from the measurement. In this paper, an enhanced estimation of signal parameters via rotational invariance technique (ESPRIT) is proposed. The main advantage of this technique is its ability to analyze both single and multi-mode blade vibrations spreading across a wide dynamic range, while accommodating the effect of varying rotational speeds and sensor installation errors. Analysis and numerical simulation have shown that the method can effectively improve the accuracy and robustness of vibration frequency and amplitude estimation compared to the traditional ESPRIT.

Idioma original	English
Estado	Published - 2014
Evento	12th International Conference on Motion and Vibration Control, MOVIC 2014 - Sapporo, Hokkaido, Japan Duración: ago 3 2014 → ago 7 2014

Conference

Conference	12th International Conference on Motion and Vibration Control, MOVIC 2014
País/Territorio	Japan
Ciudad	Sapporo, Hokkaido
Período	8/3/14 → 8/7/14

Nota bibliográfica

Publisher Copyright:
© 2014 The Japan Society of Mechanical Engineers.

ASJC Scopus subject areas

Control and Systems Engineering

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title = "Noninterference identification of rotating blade vibration",

abstract = "The paper presents a non-interference measurement and diagnostic method for the parametric identification of vibrations in rotating engine blades, based on blade tip-timing (BTT) measured by optical sensors. Because of the inherent under-sampling nature associated with BTT measurement, effective algorithms are needed to extract key vibration parameters such as frequency and amplitude from the measurement. In this paper, an enhanced estimation of signal parameters via rotational invariance technique (ESPRIT) is proposed. The main advantage of this technique is its ability to analyze both single and multi-mode blade vibrations spreading across a wide dynamic range, while accommodating the effect of varying rotational speeds and sensor installation errors. Analysis and numerical simulation have shown that the method can effectively improve the accuracy and robustness of vibration frequency and amplitude estimation compared to the traditional ESPRIT.",

keywords = "Blade tip timing, Blade vibration, ESPRIT, Noninterference measurement, Under-sampled signal",

author = "P. Wang and R. Gao and Z. Fan and D. Karg and K. Kwolek and A. Consiglio",

note = "Publisher Copyright: {\textcopyright} 2014 The Japan Society of Mechanical Engineers.; 12th International Conference on Motion and Vibration Control, MOVIC 2014 ; Conference date: 03-08-2014 Through 07-08-2014",

year = "2014",

language = "English",

}

TY - CONF

T1 - Noninterference identification of rotating blade vibration

AU - Wang, P.

AU - Gao, R.

AU - Fan, Z.

AU - Karg, D.

AU - Kwolek, K.

AU - Consiglio, A.

PY - 2014

Y1 - 2014

N2 - The paper presents a non-interference measurement and diagnostic method for the parametric identification of vibrations in rotating engine blades, based on blade tip-timing (BTT) measured by optical sensors. Because of the inherent under-sampling nature associated with BTT measurement, effective algorithms are needed to extract key vibration parameters such as frequency and amplitude from the measurement. In this paper, an enhanced estimation of signal parameters via rotational invariance technique (ESPRIT) is proposed. The main advantage of this technique is its ability to analyze both single and multi-mode blade vibrations spreading across a wide dynamic range, while accommodating the effect of varying rotational speeds and sensor installation errors. Analysis and numerical simulation have shown that the method can effectively improve the accuracy and robustness of vibration frequency and amplitude estimation compared to the traditional ESPRIT.

AB - The paper presents a non-interference measurement and diagnostic method for the parametric identification of vibrations in rotating engine blades, based on blade tip-timing (BTT) measured by optical sensors. Because of the inherent under-sampling nature associated with BTT measurement, effective algorithms are needed to extract key vibration parameters such as frequency and amplitude from the measurement. In this paper, an enhanced estimation of signal parameters via rotational invariance technique (ESPRIT) is proposed. The main advantage of this technique is its ability to analyze both single and multi-mode blade vibrations spreading across a wide dynamic range, while accommodating the effect of varying rotational speeds and sensor installation errors. Analysis and numerical simulation have shown that the method can effectively improve the accuracy and robustness of vibration frequency and amplitude estimation compared to the traditional ESPRIT.

KW - Blade tip timing

KW - Blade vibration

KW - ESPRIT

KW - Noninterference measurement

KW - Under-sampled signal

UR - https://www.scopus.com/pages/publications/84925372641

UR - https://www.scopus.com/pages/publications/84925372641#tab=citedBy

M3 - Paper

AN - SCOPUS:84925372641

T2 - 12th International Conference on Motion and Vibration Control, MOVIC 2014

Y2 - 3 August 2014 through 7 August 2014

ER -

Noninterference identification of rotating blade vibration

Resumen

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ASJC Scopus subject areas

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