Optical Fiber Sensors for Remote Condition Monitoring of Industrial Structures

Tong Sun Obe; M. Fabian; Y. Chen; M. Vidakovic; S. Javdani; K. T.V. Grattan; J. Carlton; C. Gerada; L. Brun

doi:10.1007/978-981-10-7087-7_19

Optical Fiber Sensors for Remote Condition Monitoring of Industrial Structures

Tong Sun Obe, M. Fabian, Y. Chen, M. Vidakovic, S. Javdani, K. T.V. Grattan, J. Carlton, C. Gerada, L. Brun

Nottingham Electrification Centre

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

Abstract

Optical fibers have been explored widely for their sensing capability to meet increasing industrial needs, building on their success in telecommunications. This chapter provides a review of research activities at City, University of London in response to industrial challenges through the development of a range of optical fiber Bragg grating (FBG)-based sensors for transportation structural monitoring. It includes the instrumentation of marine propellers using arrays of FBGs mapped onto the surface of propeller blades to allow for capturing vibrational modes, with reference to simulation data. The research funded by the EU Cleansky programme enables the development of self-sensing electric motor drives to support ‘More Electric Aircraft’ concept. The partnership with Faiveley Brecknell Willis in the UK enables the integration of FBG sensors into the railway current-collecting pantographs for real-time condition monitoring when they are operating under 25 kV conditions.

Original language	English
Title of host publication	Handbook of Optical Fibers
Publisher	Springer Singapore
Pages	1815-1838
Number of pages	24
ISBN (Electronic)	9789811070877
ISBN (Print)	9789811070853
DOIs	https://doi.org/10.1007/978-981-10-7087-7_19
Publication status	Published - 1 Jan 2019

Keywords

Fiber Bragg Gratings
Marine propellers
Optical fiber sensors
Self-sensing electrical motors
Smart railway current-collecting pantographs
Structural condition monitoring

ASJC Scopus subject areas

General Engineering
General Materials Science
General Physics and Astronomy

UN SDGs

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

Access to Document

10.1007/978-981-10-7087-7_19

Cite this

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title = "Optical Fiber Sensors for Remote Condition Monitoring of Industrial Structures",

abstract = "Optical fibers have been explored widely for their sensing capability to meet increasing industrial needs, building on their success in telecommunications. This chapter provides a review of research activities at City, University of London in response to industrial challenges through the development of a range of optical fiber Bragg grating (FBG)-based sensors for transportation structural monitoring. It includes the instrumentation of marine propellers using arrays of FBGs mapped onto the surface of propeller blades to allow for capturing vibrational modes, with reference to simulation data. The research funded by the EU Cleansky programme enables the development of self-sensing electric motor drives to support {\textquoteleft}More Electric Aircraft{\textquoteright} concept. The partnership with Faiveley Brecknell Willis in the UK enables the integration of FBG sensors into the railway current-collecting pantographs for real-time condition monitoring when they are operating under 25 kV conditions.",

keywords = "Fiber Bragg Gratings, Marine propellers, Optical fiber sensors, Self-sensing electrical motors, Smart railway current-collecting pantographs, Structural condition monitoring",

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AU - Fabian, M.

AU - Chen, Y.

AU - Vidakovic, M.

AU - Javdani, S.

AU - Grattan, K. T.V.

AU - Carlton, J.

AU - Gerada, C.

AU - Brun, L.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Optical fibers have been explored widely for their sensing capability to meet increasing industrial needs, building on their success in telecommunications. This chapter provides a review of research activities at City, University of London in response to industrial challenges through the development of a range of optical fiber Bragg grating (FBG)-based sensors for transportation structural monitoring. It includes the instrumentation of marine propellers using arrays of FBGs mapped onto the surface of propeller blades to allow for capturing vibrational modes, with reference to simulation data. The research funded by the EU Cleansky programme enables the development of self-sensing electric motor drives to support ‘More Electric Aircraft’ concept. The partnership with Faiveley Brecknell Willis in the UK enables the integration of FBG sensors into the railway current-collecting pantographs for real-time condition monitoring when they are operating under 25 kV conditions.

AB - Optical fibers have been explored widely for their sensing capability to meet increasing industrial needs, building on their success in telecommunications. This chapter provides a review of research activities at City, University of London in response to industrial challenges through the development of a range of optical fiber Bragg grating (FBG)-based sensors for transportation structural monitoring. It includes the instrumentation of marine propellers using arrays of FBGs mapped onto the surface of propeller blades to allow for capturing vibrational modes, with reference to simulation data. The research funded by the EU Cleansky programme enables the development of self-sensing electric motor drives to support ‘More Electric Aircraft’ concept. The partnership with Faiveley Brecknell Willis in the UK enables the integration of FBG sensors into the railway current-collecting pantographs for real-time condition monitoring when they are operating under 25 kV conditions.

KW - Fiber Bragg Gratings

KW - Marine propellers

KW - Optical fiber sensors

KW - Self-sensing electrical motors

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PB - Springer Singapore

ER -

Optical Fiber Sensors for Remote Condition Monitoring of Industrial Structures

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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