Abstract
This paper presents an analytical model for predicting the dynamic characteristics of composite wind turbine blades. In this model, the governing equations of motion are derived using Hamiltion's principle and are solved by using extended Galerkin's method. This model is capable of predicting natural frequencies of composite beams with arbitrary single-cell cross sections. For various layup configurations, the results obtained by the developed analytical model are compared with the results of the finite element analysis. It is shown that the analytical model provides reasonable accuracy in predicting natural frequency of unbalanced layup configurations with ply angles of up to 40 degrees.
| Original language | English |
|---|---|
| Title of host publication | 2nd International Symposium on Environment Friendly Energies and Applications, EFEA 2012 |
| Publisher | IEEE Press |
| Pages | 406-411 |
| Number of pages | 6 |
| ISBN (Print) | 9781467329095 |
| DOIs | |
| Publication status | Published - 2012 |
| Event | 2nd International Symposium on Environment Friendly Energies and Applications, EFEA 2012 - Newcastle upon Tyne, United Kingdom Duration: 25 Jun 2012 → 27 Jun 2012 |
Conference
| Conference | 2nd International Symposium on Environment Friendly Energies and Applications, EFEA 2012 |
|---|---|
| Country/Territory | United Kingdom |
| City | Newcastle upon Tyne |
| Period | 25/06/12 → 27/06/12 |
UN SDGs
This output contributes to the following UN Sustainable Development Goals (SDGs)
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SDG 7 Affordable and Clean Energy
Keywords
- adaptive blades
- extended Galerkin's method
- Hamiltion's principle
- thin-walled composite beam
- wind turbine blade
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