The wind speed impact on stress and deformation of composite wind turbine blade
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Authors
Raičević, NikolaPetrašinović, Danilo
Grbović, Aleksandar
Petrašinović, Miloš
Balać, Martina
Petrović, Mihailo
Article (Published version)
,
Springer
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Wind turbines are structures that transform wind energy into other types of energy. In the modern age, wind turbines are closely related to the production of electricity and are considered starters of the green industry. Designing this type of construction is a complex and demanding process. Wind turbine
blades are the most important part of the construction and are usually made of
composite materials that meet the requirements of strength as well as aerodynamic requirements. Due to the high cost of composite materials, numerical modeling programs are very important because they allow the structure to be inspected before production, as well as to identify possible errors and weaknesses. In this way, additional manufacturing costs are avoided and a fully optimized structure is obtained. The finite element method (FEM) is a reliable method that allows the structure to be tested for the occurrence of normal and shear stresses that can lead to unwanted values of deformations on the blade.... In this paper, the procedure of static analysis of a wind turbine blade is presented and the results that are important for optimizing the blade structure are analyzed. The purpose of FEM analysis is to find critical sections of the blade and to predict where maximum values of stresses may occur. In this way, it can be concluded whether the chosen material is appropriate and how the structure can be further optimized.
Keywords:
FEM / wind turbine / composite materialsSource:
Experimental Research and Numerical Simulation in Applied Sciences. CNNTech 2022., 2022, 114-120Publisher:
- Springer Cham
Funding / projects:
- Ministry of Science, Technological Development and Innovation of the Republic of Serbia, institutional funding - 200105 (University of Belgrade, Faculty of Mechanical Engineering) (RS-MESTD-inst-2020-200105)
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Mašinski fakultetTY - JOUR AU - Raičević, Nikola AU - Petrašinović, Danilo AU - Grbović, Aleksandar AU - Petrašinović, Miloš AU - Balać, Martina AU - Petrović, Mihailo PY - 2022 UR - https://machinery.mas.bg.ac.rs/handle/123456789/6045 AB - Wind turbines are structures that transform wind energy into other types of energy. In the modern age, wind turbines are closely related to the production of electricity and are considered starters of the green industry. Designing this type of construction is a complex and demanding process. Wind turbine blades are the most important part of the construction and are usually made of composite materials that meet the requirements of strength as well as aerodynamic requirements. Due to the high cost of composite materials, numerical modeling programs are very important because they allow the structure to be inspected before production, as well as to identify possible errors and weaknesses. In this way, additional manufacturing costs are avoided and a fully optimized structure is obtained. The finite element method (FEM) is a reliable method that allows the structure to be tested for the occurrence of normal and shear stresses that can lead to unwanted values of deformations on the blade. In this paper, the procedure of static analysis of a wind turbine blade is presented and the results that are important for optimizing the blade structure are analyzed. The purpose of FEM analysis is to find critical sections of the blade and to predict where maximum values of stresses may occur. In this way, it can be concluded whether the chosen material is appropriate and how the structure can be further optimized. PB - Springer Cham T2 - Experimental Research and Numerical Simulation in Applied Sciences. CNNTech 2022. T1 - The wind speed impact on stress and deformation of composite wind turbine blade EP - 120 SP - 114 DO - 10.1007/978-3-031-19499-3_6 ER -
@article{ author = "Raičević, Nikola and Petrašinović, Danilo and Grbović, Aleksandar and Petrašinović, Miloš and Balać, Martina and Petrović, Mihailo", year = "2022", abstract = "Wind turbines are structures that transform wind energy into other types of energy. In the modern age, wind turbines are closely related to the production of electricity and are considered starters of the green industry. Designing this type of construction is a complex and demanding process. Wind turbine blades are the most important part of the construction and are usually made of composite materials that meet the requirements of strength as well as aerodynamic requirements. Due to the high cost of composite materials, numerical modeling programs are very important because they allow the structure to be inspected before production, as well as to identify possible errors and weaknesses. In this way, additional manufacturing costs are avoided and a fully optimized structure is obtained. The finite element method (FEM) is a reliable method that allows the structure to be tested for the occurrence of normal and shear stresses that can lead to unwanted values of deformations on the blade. In this paper, the procedure of static analysis of a wind turbine blade is presented and the results that are important for optimizing the blade structure are analyzed. The purpose of FEM analysis is to find critical sections of the blade and to predict where maximum values of stresses may occur. In this way, it can be concluded whether the chosen material is appropriate and how the structure can be further optimized.", publisher = "Springer Cham", journal = "Experimental Research and Numerical Simulation in Applied Sciences. CNNTech 2022.", title = "The wind speed impact on stress and deformation of composite wind turbine blade", pages = "120-114", doi = "10.1007/978-3-031-19499-3_6" }
Raičević, N., Petrašinović, D., Grbović, A., Petrašinović, M., Balać, M.,& Petrović, M.. (2022). The wind speed impact on stress and deformation of composite wind turbine blade. in Experimental Research and Numerical Simulation in Applied Sciences. CNNTech 2022. Springer Cham., 114-120. https://doi.org/10.1007/978-3-031-19499-3_6
Raičević N, Petrašinović D, Grbović A, Petrašinović M, Balać M, Petrović M. The wind speed impact on stress and deformation of composite wind turbine blade. in Experimental Research and Numerical Simulation in Applied Sciences. CNNTech 2022.. 2022;:114-120. doi:10.1007/978-3-031-19499-3_6 .
Raičević, Nikola, Petrašinović, Danilo, Grbović, Aleksandar, Petrašinović, Miloš, Balać, Martina, Petrović, Mihailo, "The wind speed impact on stress and deformation of composite wind turbine blade" in Experimental Research and Numerical Simulation in Applied Sciences. CNNTech 2022. (2022):114-120, https://doi.org/10.1007/978-3-031-19499-3_6 . .