Improved resonance method for fatigue test of full-scale wind turbine blades

Zhou, Aiguo; shi, jinlei; Ma, Yi; Xu, Xiaodong

doi:10.1063/5.0095283

Cited by 5 publications

(1 citation statement)

References 11 publications

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“…The plow does not turn the soil in any way, but only crushes the soil after penetrating it. This plow is very effective in maintaining soil moisture, so it is recommended for rained areas [18].…”

Section: Related Workmentioning

confidence: 99%

Using Different Angles of Rotating Blades Using the Finite Element Method

Ali Hassan,

Soheili Mehdizadeh

2024

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One of the most important operations in agriculture is tillage, which has a great contribution to increasing crop yield and aeration of the soil and, ultimately, root development. Among the important tools for tillage are rotary rotators that are exposed to high and variable dynamic loads, so they are designed to have both the greatest contribution to soil agitation and high strength; It is necessary. Therefore, in this research, an L-shaped blade sample was designed for a rotator using a Biomimetic method. Due to the extensive research that has been done in the world in the field of manufacturing different types of rotators with a rotating agitator mechanism, therefore, it is necessary to study and optimize the rotator blades according to Iranian conditions. In this study, the studied variables include dependent and independent variables. Dependent variables include von Mises stress and arm displacement, and independent variables include the dimensions and geometric parameters of the Shape of the Rotator Blades. The idea for the blade design was inspired by the paw of a mole rat. Six blades were designed by simple method and biomimetic method and then by finite element method. Effects of blade angle change and design method on stress distribution, maximum displacement, maximum energy absorbed in the blade, reliability and under 400 N checked out. The results showed that in all designed models, the values of stress, displacement and energy absorbed were lower in the biomimetic design mode. As the blade angle increased, the values of the above parameters also decreased. Finally, the best model for having the least von Mises stress and the highest reliability was the blade with a Biomimetic design and a 20-degree angle.

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Section: Related Workmentioning

confidence: 99%

Using Different Angles of Rotating Blades Using the Finite Element Method

Ali Hassan,

Soheili Mehdizadeh

2024

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Characteristics evaluation of TFTs method for fatigue testing of ultra-large offshore wind turbine blade

Zhou,

Shi,

Dong

et al. 2024

Engineering Failure Analysis

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Experimental investigations on normal mode nodes as support positions of a resonant testing facility for bending fatigue tests

Schramm,

Birkner,

Schneider

et al. 2024

Fatigue Fract Eng Mat Struct

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Large‐scale fatigue testing is very important to the research on scale effects, which occur in large cyclic loaded structures, such as wind turbine towers. However, such experimental testing has a very high energy consumption. As an efficient alternative, this paper presents a new resonant testing facility for large‐scale specimens under cyclic bending loads. The facility works as a 4‐point bending test, in which the specimen is supported in the nodes of its first normal bending mode, where theoretically no reaction forces occur. Two counter‐rotating imbalance motors with excitation frequencies near resonance generate a harmonic force acting on the specimen. Experimental trial fatigue tests on a steel pipe as a specimen were carried out, in order to validate the new testing setup. A great decrease in the support forces was reached by placing the supports at the normal mode nodes. Additionally, the behavior of the support forces under varying positions and excitation frequencies was also investigated. In summary, the resonant testing method combined with the supports at the normal mode nodes offers an efficient and energy‐saving testing setup for large‐scale fatigue tests.

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Improved resonance method for fatigue test of full-scale wind turbine blades

Cited by 5 publications

References 11 publications

Using Different Angles of Rotating Blades Using the Finite Element Method

Using Different Angles of Rotating Blades Using the Finite Element Method

Characteristics evaluation of TFTs method for fatigue testing of ultra-large offshore wind turbine blade

Experimental investigations on normal mode nodes as support positions of a resonant testing facility for bending fatigue tests

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