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iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures

Research output: Contribution to conferencePosterpeer-review

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iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures. / Ahuir-Torres, Juan Ignacio; Tussler, Jacob; Currie, Juvane; Dawkins, David P.; Jefferies, Joe; Bausch, Nils; Simandjuntak, Sarinova; Nash, Adrian; Thomas, Bob; Muna, Joseph; Jonsson, Carl; Mathew, Diana.

2018. Poster session presented at Global Wind Summit 2018, Hamburg, Germany.

Research output: Contribution to conferencePosterpeer-review

Harvard

Ahuir-Torres, JI, Tussler, J, Currie, J, Dawkins, DP, Jefferies, J, Bausch, N, Simandjuntak, S, Nash, A, Thomas, B, Muna, J, Jonsson, C & Mathew, D 2018, 'iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures', Global Wind Summit 2018, Hamburg, Germany, 25/09/18 - 28/09/18. <https://windeurope.org/summit2018/conference/posters/>

APA

Ahuir-Torres, J. I., Tussler, J., Currie, J., Dawkins, D. P., Jefferies, J., Bausch, N., Simandjuntak, S., Nash, A., Thomas, B., Muna, J., Jonsson, C., & Mathew, D. (2018). iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures. Poster session presented at Global Wind Summit 2018, Hamburg, Germany. https://windeurope.org/summit2018/conference/posters/

Vancouver

Ahuir-Torres JI, Tussler J, Currie J, Dawkins DP, Jefferies J, Bausch N et al. iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures. 2018. Poster session presented at Global Wind Summit 2018, Hamburg, Germany.

Author

Ahuir-Torres, Juan Ignacio ; Tussler, Jacob ; Currie, Juvane ; Dawkins, David P. ; Jefferies, Joe ; Bausch, Nils ; Simandjuntak, Sarinova ; Nash, Adrian ; Thomas, Bob ; Muna, Joseph ; Jonsson, Carl ; Mathew, Diana. / iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures. Poster session presented at Global Wind Summit 2018, Hamburg, Germany.

Bibtex

@conference{b3c9969ec63647bfa8a8915234c117c3,
title = "iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures",
abstract = "Access limitation for the inspection, and maintenance and to a power source due to the remote location and the position of some of offshore wind turbine structures, for example, nacelle and blades severely limits the application of in-situ corrosion detection methods such as the ultrasonic, acoustic emission and X-Ray. Hence, the need for A Real Time Remote Sensing (RTRS) technology, that can be implemented to provide an autonomous detection and monitoring, providing exhaustive and detailed information on the corrosion process. iWindCr is a technology development project funded by the Innovate UK which aims to develop a cost-effective end-to-end Non-Destructive Testing (NDT) corrosion detection and monitoring solution for wind turbines based on measurement of the changes in the electrochemical states such as potential, current or resistivity of turbine parts{\textquoteright} materials. The iWindCr{\textquoteright}s proof of concept system comprises Wireless Sensor Network (WSN) of smart miniaturised sensors suitable for being affixed to internal and/or external turbine structures. iWindCr utilises the concept of Internet of Things (IoT) to integrate the WSN with satellite and terrestrial communication networks, providing a guaranteed IP for data backhaul from the remote wind-farm sites to the control room. iWindCr has included in its programme: WSN of electrochemical sensor system design (UoP and Avonwood), extensive and comprehensive electrochemical testing and validation for benchmarking (one visit database) of corrosion threshold data (UoP), data analytics software user interface, telecommunication service using solar power VSAT satellite implementation (Avanti), Market analysis (Avanti).",
author = "Ahuir-Torres, {Juan Ignacio} and Jacob Tussler and Juvane Currie and Dawkins, {David P.} and Joe Jefferies and Nils Bausch and Sarinova Simandjuntak and Adrian Nash and Bob Thomas and Joseph Muna and Carl Jonsson and Diana Mathew",
year = "2018",
month = sep,
day = "25",
language = "English",
note = "Global Wind Summit 2018 : WindEnergy Hamburg, Wind Europe, GlobalWind2018 ; Conference date: 25-09-2018 Through 28-09-2018",
url = "https://www.windenergyhamburg.com/en/",

}

RIS

TY - CONF

T1 - iWindCr solution for corrosion detection and monitoring of offshore wind turbine structures

AU - Ahuir-Torres, Juan Ignacio

AU - Tussler, Jacob

AU - Currie, Juvane

AU - Dawkins, David P.

AU - Jefferies, Joe

AU - Bausch, Nils

AU - Simandjuntak, Sarinova

AU - Nash, Adrian

AU - Thomas, Bob

AU - Muna, Joseph

AU - Jonsson, Carl

AU - Mathew, Diana

PY - 2018/9/25

Y1 - 2018/9/25

N2 - Access limitation for the inspection, and maintenance and to a power source due to the remote location and the position of some of offshore wind turbine structures, for example, nacelle and blades severely limits the application of in-situ corrosion detection methods such as the ultrasonic, acoustic emission and X-Ray. Hence, the need for A Real Time Remote Sensing (RTRS) technology, that can be implemented to provide an autonomous detection and monitoring, providing exhaustive and detailed information on the corrosion process. iWindCr is a technology development project funded by the Innovate UK which aims to develop a cost-effective end-to-end Non-Destructive Testing (NDT) corrosion detection and monitoring solution for wind turbines based on measurement of the changes in the electrochemical states such as potential, current or resistivity of turbine parts’ materials. The iWindCr’s proof of concept system comprises Wireless Sensor Network (WSN) of smart miniaturised sensors suitable for being affixed to internal and/or external turbine structures. iWindCr utilises the concept of Internet of Things (IoT) to integrate the WSN with satellite and terrestrial communication networks, providing a guaranteed IP for data backhaul from the remote wind-farm sites to the control room. iWindCr has included in its programme: WSN of electrochemical sensor system design (UoP and Avonwood), extensive and comprehensive electrochemical testing and validation for benchmarking (one visit database) of corrosion threshold data (UoP), data analytics software user interface, telecommunication service using solar power VSAT satellite implementation (Avanti), Market analysis (Avanti).

AB - Access limitation for the inspection, and maintenance and to a power source due to the remote location and the position of some of offshore wind turbine structures, for example, nacelle and blades severely limits the application of in-situ corrosion detection methods such as the ultrasonic, acoustic emission and X-Ray. Hence, the need for A Real Time Remote Sensing (RTRS) technology, that can be implemented to provide an autonomous detection and monitoring, providing exhaustive and detailed information on the corrosion process. iWindCr is a technology development project funded by the Innovate UK which aims to develop a cost-effective end-to-end Non-Destructive Testing (NDT) corrosion detection and monitoring solution for wind turbines based on measurement of the changes in the electrochemical states such as potential, current or resistivity of turbine parts’ materials. The iWindCr’s proof of concept system comprises Wireless Sensor Network (WSN) of smart miniaturised sensors suitable for being affixed to internal and/or external turbine structures. iWindCr utilises the concept of Internet of Things (IoT) to integrate the WSN with satellite and terrestrial communication networks, providing a guaranteed IP for data backhaul from the remote wind-farm sites to the control room. iWindCr has included in its programme: WSN of electrochemical sensor system design (UoP and Avonwood), extensive and comprehensive electrochemical testing and validation for benchmarking (one visit database) of corrosion threshold data (UoP), data analytics software user interface, telecommunication service using solar power VSAT satellite implementation (Avanti), Market analysis (Avanti).

UR - https://windeurope.org/summit2018/conference/proceedings/posters/

M3 - Poster

T2 - Global Wind Summit 2018

Y2 - 25 September 2018 through 28 September 2018

ER -

ID: 13255760