Failures in Trailing Edge Bondlines of Wind Turbine Blades

F. M. Jensen; John Dalsgaard Sørensen; P. H. Nielsen; Peter Berring; S. Flores

Failures in Trailing Edge Bondlines of Wind Turbine Blades

F. M. Jensen, John Dalsgaard Sørensen, P. H. Nielsen, Peter Berring, S. Flores

Research output: Contribution to journal › Conference article in Journal › Research › peer-review

Abstract

Bonded joints in composite structures are often en object for concern. This is also true for wind turbine blades, where damage occurs in the trailing edge due to fatigue loads. Reliability of wind turbines becomes increasingly important when used offshore, where operation and maintenance costs constitute a significant part of the cost per kWh produced. However, the wind turbine industy is reluctant to share statistical values for damages, and this makes it more difficult to assess the reliability. Instead of analyzing the joint and reinforce the connection, research at Risø DTU has shown, that it possible to reduce the deformation of the trailing edge panels and thereby reduce the peeling stresses in the trailing edge joint. A basic solution patented by Risø DTU is presented. The research is based on a combination of numerical analysis and full-scale testing. The research has shown the need for improved full scale testing.

Original language	English
Journal	Proceedings of the Risø International Symposium on Materials Science
Volume	32
Pages (from-to)	319-327
Number of pages	9
ISSN	0907-0079
Publication status	Published - 2011
Event	The 32nd Risø International Symposium on Materials Science - Roskilde, Denmark Duration: 5 Sept 2011 → 9 Sept 2011

Conference

Conference	The 32nd Risø International Symposium on Materials Science
Country/Territory	Denmark
City	Roskilde
Period	05/09/2011 → 09/09/2011

Keywords

Wind Turbine Blades
Failures
Trailing Edge Bondlines
Reliability
Numerical Analysis
Full-Scale Tests

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@inproceedings{3c15d709b4e74eb092d18dd648324341,

title = "Failures in Trailing Edge Bondlines of Wind Turbine Blades",

abstract = "Bonded joints in composite structures are often en object for concern. This is also true for wind turbine blades, where damage occurs in the trailing edge due to fatigue loads. Reliability of wind turbines becomes increasingly important when used offshore, where operation and maintenance costs constitute a significant part of the cost per kWh produced. However, the wind turbine industy is reluctant to share statistical values for damages, and this makes it more difficult to assess the reliability. Instead of analyzing the joint and reinforce the connection, research at Ris{\o} DTU has shown, that it possible to reduce the deformation of the trailing edge panels and thereby reduce the peeling stresses in the trailing edge joint. A basic solution patented by Ris{\o} DTU is presented. The research is based on a combination of numerical analysis and full-scale testing. The research has shown the need for improved full scale testing.",

keywords = "Wind Turbine Blades, Failures, Trailing Edge Bondlines, Reliability, Numerical Analysis, Full-Scale Tests, Wind Turbine Blades, Failures, Trailing Edge Bondlines, Reliability, Numerical Analysis, Full-Scale Tests",

author = "Jensen, {F. M.} and S{\o}rensen, {John Dalsgaard} and Nielsen, {P. H.} and Peter Berring and S. Flores",

note = "Proceedings of the 32nd Ris{\o} International Symposium on Materials Science - Composite Materials for Structural Performance: towards higher limits. (eds.) F{\ae}ster, S., Juul Jensen, D., Ralph, B. & S{\o}rensen, B. F.; The 32nd Ris{\o} International Symposium on Materials Science ; Conference date: 05-09-2011 Through 09-09-2011",

year = "2011",

language = "English",

volume = "32",

pages = "319--327",

journal = "Proceedings of the Ris{\o} International Symposium on Materials Science",

issn = "0907-0079",

publisher = "Danmarks Tekniske Universitet, Ris{\o} Nationallaboratoriet for B{\ae}redygtig Energi",

}

TY - GEN

T1 - Failures in Trailing Edge Bondlines of Wind Turbine Blades

AU - Jensen, F. M.

AU - Sørensen, John Dalsgaard

AU - Nielsen, P. H.

AU - Berring, Peter

AU - Flores, S.

N1 - Proceedings of the 32nd Risø International Symposium on Materials Science - Composite Materials for Structural Performance: towards higher limits. (eds.) Fæster, S., Juul Jensen, D., Ralph, B. & Sørensen, B. F.

PY - 2011

Y1 - 2011

N2 - Bonded joints in composite structures are often en object for concern. This is also true for wind turbine blades, where damage occurs in the trailing edge due to fatigue loads. Reliability of wind turbines becomes increasingly important when used offshore, where operation and maintenance costs constitute a significant part of the cost per kWh produced. However, the wind turbine industy is reluctant to share statistical values for damages, and this makes it more difficult to assess the reliability. Instead of analyzing the joint and reinforce the connection, research at Risø DTU has shown, that it possible to reduce the deformation of the trailing edge panels and thereby reduce the peeling stresses in the trailing edge joint. A basic solution patented by Risø DTU is presented. The research is based on a combination of numerical analysis and full-scale testing. The research has shown the need for improved full scale testing.

AB - Bonded joints in composite structures are often en object for concern. This is also true for wind turbine blades, where damage occurs in the trailing edge due to fatigue loads. Reliability of wind turbines becomes increasingly important when used offshore, where operation and maintenance costs constitute a significant part of the cost per kWh produced. However, the wind turbine industy is reluctant to share statistical values for damages, and this makes it more difficult to assess the reliability. Instead of analyzing the joint and reinforce the connection, research at Risø DTU has shown, that it possible to reduce the deformation of the trailing edge panels and thereby reduce the peeling stresses in the trailing edge joint. A basic solution patented by Risø DTU is presented. The research is based on a combination of numerical analysis and full-scale testing. The research has shown the need for improved full scale testing.

KW - Wind Turbine Blades

KW - Failures

KW - Trailing Edge Bondlines

KW - Reliability

KW - Numerical Analysis

KW - Full-Scale Tests

KW - Wind Turbine Blades

KW - Failures

KW - Trailing Edge Bondlines

KW - Reliability

KW - Numerical Analysis

KW - Full-Scale Tests

M3 - Conference article in Journal

SN - 0907-0079

VL - 32

SP - 319

EP - 327

JO - Proceedings of the Risø International Symposium on Materials Science

JF - Proceedings of the Risø International Symposium on Materials Science

T2 - The 32nd Risø International Symposium on Materials Science

Y2 - 5 September 2011 through 9 September 2011

ER -

Failures in Trailing Edge Bondlines of Wind Turbine Blades

Abstract

Conference

Keywords

AUB Link

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