Detection of ice accretions on composite panels using FMCW radars at 60GHz

This paper encloses experimental results based on two FMCW-radars and shows the ability of such systems to detect ice on the surface of glass fibre composites. The investigation aims to define sensor nodes based on radar technology for wind turbines experiencing blade icing. Indeed, accumulation of...

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Published in	2021 IEEE 8th International Workshop on Metrology for AeroSpace (MetroAeroSpace) pp. 636 - 639
Main Authors	Maio, Leandro, Moll, Jochen, Memmolo, Vittorio, Simon, Jonas, Maetz, Thomas, Krozer, Viktor, Nuber, Andreas, Krause, Stefan, Bagemiel, Oliver
Format	Conference Proceeding
Language	English
Published	IEEE 23.06.2021
Subjects	Bandwidth FMCW radar Focusing Glass ice detection Laser radar Optical fibers Radar detection Radar imaging structural health monitoring Wind turbine blade
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Abstract	This paper encloses experimental results based on two FMCW-radars and shows the ability of such systems to detect ice on the surface of glass fibre composites. The investigation aims to define sensor nodes based on radar technology for wind turbines experiencing blade icing. Indeed, accumulation of ice on rotor blades can be critical, because pieces of ice can come loose and fly away. For this practically relevant scenario, herein it is studied a differential analysis approach where the dry state of a composite plate serves as baseline and ice layers are used as test cases. The same differential imaging concept can be applied for the detection of structural defects such as delaminations or debondings.
AbstractList	This paper encloses experimental results based on two FMCW-radars and shows the ability of such systems to detect ice on the surface of glass fibre composites. The investigation aims to define sensor nodes based on radar technology for wind turbines experiencing blade icing. Indeed, accumulation of ice on rotor blades can be critical, because pieces of ice can come loose and fly away. For this practically relevant scenario, herein it is studied a differential analysis approach where the dry state of a composite plate serves as baseline and ice layers are used as test cases. The same differential imaging concept can be applied for the detection of structural defects such as delaminations or debondings.
Author	Krause, Stefan Moll, Jochen Maetz, Thomas Maio, Leandro Bagemiel, Oliver Simon, Jonas Krozer, Viktor Memmolo, Vittorio Nuber, Andreas
Author_xml	– sequence: 1 givenname: Leandro surname: Maio fullname: Maio, Leandro email: leandro.maio@unina.it organization: University of Naples Federico II,Department of Industrial Engineering,Naples,Italy – sequence: 2 givenname: Jochen surname: Moll fullname: Moll, Jochen email: moll@physik.uni-frankfurt.de organization: Goethe-University Frankfurt,Department of Physics,Frankfurt,Germany – sequence: 3 givenname: Vittorio surname: Memmolo fullname: Memmolo, Vittorio email: vittorio.memmolo@unina.it organization: University of Naples Federico II,Department of Industrial Engineering,Naples,Italy – sequence: 4 givenname: Jonas surname: Simon fullname: Simon, Jonas email: simon@physik.uni-frankfurt.de organization: Goethe-University Frankfurt,Department of Physics,Frankfurt,Germany – sequence: 5 givenname: Thomas surname: Maetz fullname: Maetz, Thomas email: maetz@physik.uni-frankfurt.de organization: Goethe-University Frankfurt,Department of Physics,Frankfurt,Germany – sequence: 6 givenname: Viktor surname: Krozer fullname: Krozer, Viktor email: krozer@physik.uni-frankfurt.de organization: Goethe-University Frankfurt,Department of Physics,Frankfurt,Germany – sequence: 7 givenname: Andreas surname: Nuber fullname: Nuber, Andreas email: nuber@woelfel.de organization: Wölfel Engineering GmbH + Co. KG,Höchberg,Germany – sequence: 8 givenname: Stefan surname: Krause fullname: Krause, Stefan email: stefan.krause@iwes.fraunhofer.de organization: Fraunhofer Institute for Wind Energy and Energy System Technology,Bremerhaven,Germany – sequence: 9 givenname: Oliver surname: Bagemiel fullname: Bagemiel, Oliver email: oliver.bagemiel@iwes.fraunhofer.de organization: Fraunhofer Institute for Wind Energy and Energy System Technology,Bremerhaven,Germany
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Snippet	This paper encloses experimental results based on two FMCW-radars and shows the ability of such systems to detect ice on the surface of glass fibre composites....
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SubjectTerms	Bandwidth FMCW radar Focusing Glass ice detection Laser radar Optical fibers Radar detection Radar imaging structural health monitoring Wind turbine blade
Title	Detection of ice accretions on composite panels using FMCW radars at 60GHz
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