High-Fidelity 2-Way FSI Simulation of a Wind Turbine Using Fully Structured Multiblock Meshes in OpenFoam for Accurate Aero-Elastic Analysis

Zhangaskanov, Dinmukhamed; Batay, Sagidolla; Kamalov, Bagdaulet; Zhao, Yong; Su, Xiaohui; Ng, E. Y. K.

doi:10.3390/fluids7050169

Cited by 4 publications

(1 citation statement)

References 21 publications

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“…FSI simulations allow for the examination of the influence of aerodynamic loads on the structure and the subsequent impact of deformation on the generated loads. While FSI is commonly used in wind turbine simulations [18]- [20], its application in rotorcraft simulations is less frequently described in published studies.…”

Section: Introductionmentioning

confidence: 99%

Helicopter main rotor FSI analysis using parametric blade model as an application for multidisciplinary optimization

Kocjan,

Kachel,

Rogólski

2024

J. Phys.: Conf. Ser.

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This work is part of a research program aimed at finding new approaches and design solutions for helicopter main rotor modelling using multidisciplinary optimization. It is the fourth stage of an individual research program that includes preliminary tasks such as parametric modelling of a single blade, CFD modelling of a full main rotor for different flight conditions, and preliminary structural modelling of a blade. The main goal of this work is to present the parametric modelling of the rotor blade body and structure as an application for complex simulation. The paper demonstrates the method of advanced analysis of the entire rotor and provides exemplary results obtained from complicated analyses. The analytical foundation for combined fluid-structure analysis is presented. The parametric design method is shown to be applicable for different blade planform shapes and various section airfoils. The blade CFD fluid domain is also prepared using the parametric method, as well as the blade’s inner structure. The simulation parameters from the previous stages of research, which serve as inputs to the FSI analysis, are outlined. These previously obtained parameters are combined and introduced into an FSI simulation to assess their compatibility and applicability. The configuration procedure of the analysis and the boundary conditions are presented. The obtained numerical results are then compared with analytical assumptions. The simulation products, which serve as inputs for further analysis, are presented with graphical representations. The time and memory consumption of the simulation are outlined. The application of the described work in an optimization loop is proposed. As a result of this research, new options for main rotor optimization are developed. The paper demonstrates some crucial possibilities of FSI analysis in the described simulation cases. The use of combined parametric modeling with fluid-structure interaction analysis for different flight conditions is presented as a new perspective for multidisciplinary design optimization of a helicopter rotor system.

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Section: Introductionmentioning

confidence: 99%

Helicopter main rotor FSI analysis using parametric blade model as an application for multidisciplinary optimization

Kocjan,

Kachel,

Rogólski

2024

J. Phys.: Conf. Ser.

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Estimation of added effects and their frequency dependence in various fluid–structure interaction problems

Urban,

Pochylý,

Habán

2024

J Braz. Soc. Mech. Sci. Eng.

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This paper focuses on a fluid–structure interaction topic—the determination of added effects caused by fluid forces acting on a body, considering the standard linear equation of motion. We present various problems that assume small-displacement oscillations of single and multiple bodies in inviscid irrotational (potential) flow or viscous incompressible flow in both closed domain and external flow. For inviscid flow, effects of geometric parameters on the added effects were studied. The presented results extend results known from the literature. For viscous flow, frequency dependence of the added effects was studied for a wide range of frequency. The added effects were computed from data from numerical simulations of fluid flow, where the body oscillations were modeled using the dynamic mesh approach. Effects of the phase shift caused by the dynamic mesh were addressed. The added mass was compared with the corresponding value determined for inviscid flow where applicable. The results show strong dependence of the added effects on many parameters, making their proper computation challenging even for simplified cases.

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Aerostructural UAV Main Rotor Optimisation Algorithm Considering Mass and Strength Limitations

Kocjan,

Kachel,

Rogólski

2024

Earth and Space 2024

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High-Fidelity 2-Way FSI Simulation of a Wind Turbine Using Fully Structured Multiblock Meshes in OpenFoam for Accurate Aero-Elastic Analysis

Cited by 4 publications

References 21 publications

Helicopter main rotor FSI analysis using parametric blade model as an application for multidisciplinary optimization

Helicopter main rotor FSI analysis using parametric blade model as an application for multidisciplinary optimization

Estimation of added effects and their frequency dependence in various fluid–structure interaction problems

Aerostructural UAV Main Rotor Optimisation Algorithm Considering Mass and Strength Limitations

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