Towards automation of wind energy rotor blade production: a review of challenges and application examples

Towards automation of wind energy rotor blade production: a review of challenges and application examples

Current wind turbine rotor blades have a significant impact on the cost of the turbine, which is mainly a consequence of the manual process steps involved in blade production. The manual, labour-intensive production process leads to high tolerances and requires high safety and reliability factors. E...

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Bibliographic Details
Main Authors: Jan-Hendrik Ohlendorf, Marvin Richrath, Jan Franke, Michael Brink, Klaus-Dieter Thoben
Format: Article
Language:English
Published: Taylor & Francis Group 2020-11-01
Series:Advanced Manufacturing: Polymer & Composites Science
Subjects:
fabrics/textiles
preform
automation
lay-up (manual/automated)
Online Access:http://dx.doi.org/10.1080/20550340.2020.1838224
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spelling doaj-ed5a8c0d11f8423db9ce42a60efcb5782021-03-03T10:41:13ZengTaylor & Francis GroupAdvanced Manufacturing: Polymer & Composites Science2055-03592020-11-016417319010.1080/20550340.2020.18382241838224Towards automation of wind energy rotor blade production: a review of challenges and application examplesJan-Hendrik Ohlendorf0Marvin Richrath1Jan Franke2Michael Brink3Klaus-Dieter Thoben4BIK - Institute for Integrated Product Development, Faculty of Production Engineering, University of BremenBIK - Institute for Integrated Product Development, Faculty of Production Engineering, University of BremenBIK - Institute for Integrated Product Development, Faculty of Production Engineering, University of BremenBIK - Institute for Integrated Product Development, Faculty of Production Engineering, University of BremenBIK - Institute for Integrated Product Development, Faculty of Production Engineering, University of BremenCurrent wind turbine rotor blades have a significant impact on the cost of the turbine, which is mainly a consequence of the manual process steps involved in blade production. The manual, labour-intensive production process leads to high tolerances and requires high safety and reliability factors. Especially in the case of offshore turbines with current and upcoming blade dimensions, automation will make the blades cost effective, quicker to produce and guarantees a higher quality. Here, we analyse the current blade structure and production processes and present a technical review of the existing automation approaches for the textile build-up process in industry and academia. Thereby we classify these approaches according to the different techniques based on the rotor blade structure parts.http://dx.doi.org/10.1080/20550340.2020.1838224fabrics/textilespreformautomationlay-up (manual/automated)
collection DOAJ
language English
format Article
sources DOAJ
author Jan-Hendrik Ohlendorf
Marvin Richrath
Jan Franke
Michael Brink
Klaus-Dieter Thoben
spellingShingle Jan-Hendrik Ohlendorf
Marvin Richrath
Jan Franke
Michael Brink
Klaus-Dieter Thoben
Towards automation of wind energy rotor blade production: a review of challenges and application examples
Advanced Manufacturing: Polymer & Composites Science
fabrics/textiles
preform
automation
lay-up (manual/automated)
author_facet Jan-Hendrik Ohlendorf
Marvin Richrath
Jan Franke
Michael Brink
Klaus-Dieter Thoben
author_sort Jan-Hendrik Ohlendorf
title Towards automation of wind energy rotor blade production: a review of challenges and application examples
title_short Towards automation of wind energy rotor blade production: a review of challenges and application examples
title_full Towards automation of wind energy rotor blade production: a review of challenges and application examples
title_fullStr Towards automation of wind energy rotor blade production: a review of challenges and application examples
title_full_unstemmed Towards automation of wind energy rotor blade production: a review of challenges and application examples
title_sort towards automation of wind energy rotor blade production: a review of challenges and application examples
publisher Taylor & Francis Group
series Advanced Manufacturing: Polymer & Composites Science
issn 2055-0359
publishDate 2020-11-01
description Current wind turbine rotor blades have a significant impact on the cost of the turbine, which is mainly a consequence of the manual process steps involved in blade production. The manual, labour-intensive production process leads to high tolerances and requires high safety and reliability factors. Especially in the case of offshore turbines with current and upcoming blade dimensions, automation will make the blades cost effective, quicker to produce and guarantees a higher quality. Here, we analyse the current blade structure and production processes and present a technical review of the existing automation approaches for the textile build-up process in industry and academia. Thereby we classify these approaches according to the different techniques based on the rotor blade structure parts.
topic fabrics/textiles
preform
automation
lay-up (manual/automated)
url http://dx.doi.org/10.1080/20550340.2020.1838224
work_keys_str_mv AT janhendrikohlendorf towardsautomationofwindenergyrotorbladeproductionareviewofchallengesandapplicationexamples
AT marvinrichrath towardsautomationofwindenergyrotorbladeproductionareviewofchallengesandapplicationexamples
AT janfranke towardsautomationofwindenergyrotorbladeproductionareviewofchallengesandapplicationexamples
AT michaelbrink towardsautomationofwindenergyrotorbladeproductionareviewofchallengesandapplicationexamples
AT klausdieterthoben towardsautomationofwindenergyrotorbladeproductionareviewofchallengesandapplicationexamples
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