Efficient aeroelastic wing optimization through a compact aerofoil decomposition approach

Poole, Daniel J; Allen, Christian B; Rendall, Thomas

doi:10.1007/s00158-022-03174-4

Cited by 5 publications

(1 citation statement)

References 48 publications

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“…After comparing and analyzing the airfoil's intrinsic performance, we designed three-dimensional blades and applied them to the fan model for simulation. The airfoil blade construction method involves bending the centerline of the airfoil according to the design method of the single-arc blade [39,40] . Fig.…”

Section: Aerodynamic Performance Of Difference Airfoil Fansmentioning

confidence: 99%

Blade Optimization of Multi-Blade Centrifugal Fan: Experimental and simulation study

Zhao,

Li,

Zheng

et al. 2023

Preprint

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To overcome the technical challenges of the multi-blade centrifugal fan, such as low efficiency and insufficient total pressure, the single-arc blades of the fan were optimized and replaced in this study. The flow field of the multi-blade centrifugal fan with a single-arc blade and an airfoil blade was simulated and compared using Computational Fluid Dynamics (CFD). Under steady-state conditions, the total pressure, velocity field distribution, and aerodynamic performance of a multi-blade centrifugal fan were analyzed. The numerical results show that the presence of vortices, secondary flows, and boundary layer separation in the flow channel of a single-arc multi-blade centrifugal fan. Combined with the lift-to-drag ratio theory of aerodynamic airfoil, four different airfoil blades were selected for the multi-blade centrifugal fan. It can be found that the lift-to-drag ratio of the airfoil was positively correlated with fan efficiency. Furthermore, the airfoil blade can suppress the above phenomena in the flow channel and enhance the flowability of the blade flow channel. Verified experiments on airfoil effects showed a 3%-7% efficiency improvement in the multi-blade centrifugal fan compared to the single-arc blade. Additionally, the airfoil fan exhibited substantial enhancements in total pressure and power. These findings hold significance for guiding optimal fan design.

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Section: Aerodynamic Performance Of Difference Airfoil Fansmentioning

confidence: 99%

Blade Optimization of Multi-Blade Centrifugal Fan: Experimental and simulation study

Zhao,

Li,

Zheng

et al. 2023

Preprint

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Multidisciplinary Multi-Point Optimization Design of Transport Aircraft Wing

Yuchao,

Chanying

2024

Advances and Challenges in Advanced Unmanned Aerial Systems

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Sensitivity-Based Geometric Parametrization and Automatic Scaling for Aerodynamic Shape Optimization

Wu,

Mader,

Martins

2024

AIAA Journal

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Aerodynamic shape optimization has become well established, with designers routinely performing wing and full aircraft optimizations with hundreds of geometric design variables. However, increased geometric design freedom increases optimization difficulty. These optimizations converge slowly, often taking hundreds of design iterations. In addition, designers have to manually scale design variables through trial and error to achieve a well-behaved optimization problem, which is tedious and time-consuming. In this work, we propose a sensitivity-based geometric parametrization approach that maps the design space onto one better suited for gradient-based optimization while keeping the same optimization problem. At the same time, the process can automatically determine design variable scaling so that the new optimization problem can be solved more effectively. We demonstrate the approach on two aerodynamic shape optimizations and show improved terminal convergence trends compared to the traditional approach, without requiring manual adjustments to the design variable scaling.

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Efficient aeroelastic wing optimization through a compact aerofoil decomposition approach

Cited by 5 publications

References 48 publications

Blade Optimization of Multi-Blade Centrifugal Fan: Experimental and simulation study

Blade Optimization of Multi-Blade Centrifugal Fan: Experimental and simulation study

Multidisciplinary Multi-Point Optimization Design of Transport Aircraft Wing

Sensitivity-Based Geometric Parametrization and Automatic Scaling for Aerodynamic Shape Optimization

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