Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing

Fubin Wang; Chao Fu; Longxi Zheng; Kuan Lu; Fengshou Gu

doi:10.1007/978-3-031-49413-0_34

Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing

Fubin Wang, Chao Fu, Longxi Zheng, Kuan Lu, Fengshou Gu

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In the working state of the aero engine, it is very important to accurately monitor the vibration characteristics of the rotor blades to obtain their operating status, aiming to avoid serious failures such as the fatigue fracture of blades and rub-impact between blades and casing and ensure the overall safety of the engine. At present, the non-contact blade vibration measurement technology based on blade tip timing (BTT) technology is the most promising tool among all measurement schemes. This paper summarizes the advantages of the BTT technique and explains the working principle of each part of the system. The historical development process of the BTT, the current research progress, and cutting-edge achievements of non-contact blade vibration measurement and vibration signal processing based on the BTT technology are comprehensively analyzed. The intelligent monitoring technology and the estimation of stress and strain fields of integral blades are also covered. Finally, the existing technical problems are discussed, and the future development trend of this technology prospects.

Original language	English
Title of host publication	Proceedings of the UNIfied Conference of DAMAS, IncoME and TEPEN Conferences (UNIfied 2023) - Volume 1
Editors	Andrew D. Ball, Zuolu Wang, Huajiang Ouyang, Jyoti K. Sinha
Publisher	Springer Science and Business Media B.V.
Pages	459-469
Number of pages	11
ISBN (Print)	9783031494123
DOIs	https://doi.org/10.1007/978-3-031-49413-0_34
State	Published - 2024
Event	UNIfied Conference of International Workshop on Defence Applications of Multi-Agent Systems, DAMAS 2023, International Conference on Maintenance Engineering, IncoME-V 2023, International conference on the Efficiency and Performance Engineering Network, TEPEN 2023 - Huddersfield, United Kingdom Duration: 29 Aug 2023 → 1 Sep 2023

Publication series

Name	Mechanisms and Machine Science
Volume	151 MMS
ISSN (Print)	2211-0984
ISSN (Electronic)	2211-0992

Conference

Conference	UNIfied Conference of International Workshop on Defence Applications of Multi-Agent Systems, DAMAS 2023, International Conference on Maintenance Engineering, IncoME-V 2023, International conference on the Efficiency and Performance Engineering Network, TEPEN 2023
Country/Territory	United Kingdom
City	Huddersfield
Period	29/08/23 → 1/09/23

Keywords

Blade tip timing
Non-contact
Rotor blades
Stress and strain fields
Vibration measurement

Access to Document

10.1007/978-3-031-49413-0_34

Cite this

Wang, F., Fu, C., Zheng, L., Lu, K., & Gu, F. (2024). Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing. In A. D. Ball, Z. Wang, H. Ouyang, & J. K. Sinha (Eds.), Proceedings of the UNIfied Conference of DAMAS, IncoME and TEPEN Conferences (UNIfied 2023) - Volume 1 (pp. 459-469). (Mechanisms and Machine Science; Vol. 151 MMS). Springer Science and Business Media B.V.. https://doi.org/10.1007/978-3-031-49413-0_34

Wang, Fubin ; Fu, Chao ; Zheng, Longxi et al. / Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing. Proceedings of the UNIfied Conference of DAMAS, IncoME and TEPEN Conferences (UNIfied 2023) - Volume 1. editor / Andrew D. Ball ; Zuolu Wang ; Huajiang Ouyang ; Jyoti K. Sinha. Springer Science and Business Media B.V., 2024. pp. 459-469 (Mechanisms and Machine Science).

@inproceedings{00043441d3704b60a532c154bfc3d348,

title = "Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing",

abstract = "In the working state of the aero engine, it is very important to accurately monitor the vibration characteristics of the rotor blades to obtain their operating status, aiming to avoid serious failures such as the fatigue fracture of blades and rub-impact between blades and casing and ensure the overall safety of the engine. At present, the non-contact blade vibration measurement technology based on blade tip timing (BTT) technology is the most promising tool among all measurement schemes. This paper summarizes the advantages of the BTT technique and explains the working principle of each part of the system. The historical development process of the BTT, the current research progress, and cutting-edge achievements of non-contact blade vibration measurement and vibration signal processing based on the BTT technology are comprehensively analyzed. The intelligent monitoring technology and the estimation of stress and strain fields of integral blades are also covered. Finally, the existing technical problems are discussed, and the future development trend of this technology prospects.",

keywords = "Blade tip timing, Non-contact, Rotor blades, Stress and strain fields, Vibration measurement",

author = "Fubin Wang and Chao Fu and Longxi Zheng and Kuan Lu and Fengshou Gu",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Switzerland AG 2024.; UNIfied Conference of International Workshop on Defence Applications of Multi-Agent Systems, DAMAS 2023, International Conference on Maintenance Engineering, IncoME-V 2023, International conference on the Efficiency and Performance Engineering Network, TEPEN 2023 ; Conference date: 29-08-2023 Through 01-09-2023",

year = "2024",

doi = "10.1007/978-3-031-49413-0_34",

language = "英语",

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editor = "Ball, {Andrew D.} and Zuolu Wang and Huajiang Ouyang and Sinha, {Jyoti K.}",

booktitle = "Proceedings of the UNIfied Conference of DAMAS, IncoME and TEPEN Conferences (UNIfied 2023) - Volume 1",

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Wang, F, Fu, C , Zheng, L , Lu, K & Gu, F 2024, Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing. in AD Ball, Z Wang, H Ouyang & JK Sinha (eds), Proceedings of the UNIfied Conference of DAMAS, IncoME and TEPEN Conferences (UNIfied 2023) - Volume 1. Mechanisms and Machine Science, vol. 151 MMS, Springer Science and Business Media B.V., pp. 459-469, UNIfied Conference of International Workshop on Defence Applications of Multi-Agent Systems, DAMAS 2023, International Conference on Maintenance Engineering, IncoME-V 2023, International conference on the Efficiency and Performance Engineering Network, TEPEN 2023, Huddersfield, United Kingdom, 29/08/23. https://doi.org/10.1007/978-3-031-49413-0_34

Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing. / Wang, Fubin; Fu, Chao ; Zheng, Longxi et al.
Proceedings of the UNIfied Conference of DAMAS, IncoME and TEPEN Conferences (UNIfied 2023) - Volume 1. ed. / Andrew D. Ball; Zuolu Wang; Huajiang Ouyang; Jyoti K. Sinha. Springer Science and Business Media B.V., 2024. p. 459-469 (Mechanisms and Machine Science; Vol. 151 MMS).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing

AU - Wang, Fubin

AU - Fu, Chao

AU - Zheng, Longxi

AU - Lu, Kuan

AU - Gu, Fengshou

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Switzerland AG 2024.

PY - 2024

Y1 - 2024

N2 - In the working state of the aero engine, it is very important to accurately monitor the vibration characteristics of the rotor blades to obtain their operating status, aiming to avoid serious failures such as the fatigue fracture of blades and rub-impact between blades and casing and ensure the overall safety of the engine. At present, the non-contact blade vibration measurement technology based on blade tip timing (BTT) technology is the most promising tool among all measurement schemes. This paper summarizes the advantages of the BTT technique and explains the working principle of each part of the system. The historical development process of the BTT, the current research progress, and cutting-edge achievements of non-contact blade vibration measurement and vibration signal processing based on the BTT technology are comprehensively analyzed. The intelligent monitoring technology and the estimation of stress and strain fields of integral blades are also covered. Finally, the existing technical problems are discussed, and the future development trend of this technology prospects.

AB - In the working state of the aero engine, it is very important to accurately monitor the vibration characteristics of the rotor blades to obtain their operating status, aiming to avoid serious failures such as the fatigue fracture of blades and rub-impact between blades and casing and ensure the overall safety of the engine. At present, the non-contact blade vibration measurement technology based on blade tip timing (BTT) technology is the most promising tool among all measurement schemes. This paper summarizes the advantages of the BTT technique and explains the working principle of each part of the system. The historical development process of the BTT, the current research progress, and cutting-edge achievements of non-contact blade vibration measurement and vibration signal processing based on the BTT technology are comprehensively analyzed. The intelligent monitoring technology and the estimation of stress and strain fields of integral blades are also covered. Finally, the existing technical problems are discussed, and the future development trend of this technology prospects.

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KW - Rotor blades

KW - Stress and strain fields

KW - Vibration measurement

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PB - Springer Science and Business Media B.V.

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Wang F, Fu C , Zheng L , Lu K, Gu F. Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing. In Ball AD, Wang Z, Ouyang H, Sinha JK, editors, Proceedings of the UNIfied Conference of DAMAS, IncoME and TEPEN Conferences (UNIfied 2023) - Volume 1. Springer Science and Business Media B.V. 2024. p. 459-469. (Mechanisms and Machine Science). doi: 10.1007/978-3-031-49413-0_34

Review of Non-contact Blade Vibration Monitoring Based on Blade Tip Timing

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Keywords

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