Computational Study of Aerodynamic Effects of the Dihedral and Angle of Attack of Biomimetic Grids Installed on a Mini UAV
R Bardera, ÁA Rodríguez-Sevillano… - Biomimetics, 2023 - mdpi.com
In this paper, a numerical analysis of a biomimetic unmanned aerial vehicle (UAV) is
presented. Its wings feature three grids at the tip similar to the primary feathers of birds in …
presented. Its wings feature three grids at the tip similar to the primary feathers of birds in …
Multi-element winglets: Multi-objective optimization of aerodynamic shapes
The wing tip device in this study was to mimic the wing tips of a soaring bird, featuring three
smoothly blended elements. Each such multi-element winglet was integrated into a …
smoothly blended elements. Each such multi-element winglet was integrated into a …
[HTML][HTML] Numerical analysis of a biomimetic UAV with variable length grids wingtips
R Bardera, ÁA Rodríguez-Sevillano, E Barroso… - Results in …, 2023 - Elsevier
Birds can reduce the induced drag using an elongation of the wings called primary feathers.
In this paper, a numerical analysis of a biomimetic Unmanned Aerial Vehicle (UAV) that …
In this paper, a numerical analysis of a biomimetic Unmanned Aerial Vehicle (UAV) that …
Winglet design and analysis for low-altitude solar-powered UAV
AI GölcÁ¼k, DF Kurtulus - International Journal of …, 2017 - inderscienceonline.com
One of the most important factors affecting the aerodynamic performance of the aircraft is lift-
induced drag caused by wingtip vortices. This study describes the winglet design and …
induced drag caused by wingtip vortices. This study describes the winglet design and …
Numerical study of blended winglet geometry variations on unmanned aerial vehicle aerodynamic performance
FD Pertiwi, A Wahjudi - JMES The International Journal of Mechanical …, 2022 - iptek.its.ac.id
An unmanned aerial vehicle (UAV) is an unmanned aircraft that can be controlled remotely
or flown automatically. Nowadays, the use of UAVs is extensive, not only limited to the …
or flown automatically. Nowadays, the use of UAVs is extensive, not only limited to the …
[PDF][PDF] Winglets–Multiobjective Optimization of Aerodynamic Shapes
Various configurations for airplane wing tip winglets have been investigated by performing
3D aerodynamic analysis. An existing blended winglet has been equipped with a secondary …
3D aerodynamic analysis. An existing blended winglet has been equipped with a secondary …
[图书][B] Pengujian Surface Roughness (Kekasaran Permukaan) pada Material dengan Perlakuan Permukaan yang Berbeda
MA Muflikhun - 2023 - books.google.com
Metrologi adalah disiplin ilmu yang mempelajari metode pengukuran, kalibrasi, dan
ketelitian baik dalam bidang industri, ilmu pengetahuan, maupun teknologi di masa depan …
ketelitian baik dalam bidang industri, ilmu pengetahuan, maupun teknologi di masa depan …
[PDF][PDF] Design, Study, and Comparison of a New Axial Fan Using the Fibonacci Spiral and a Classic Axial Fan
HAY Maldonado - JJMIE, 2024 - jjmie.hu.edu.jo
This study aims to compare two small-sized axial fans: one is the classic axial fan (referred
to as" Model A") and the other is an innovative design using the natural pattern of the …
to as" Model A") and the other is an innovative design using the natural pattern of the …
Global Multiobjective Aerodynamic Optimization of Wingtip Design for Micro Aerial Vehicle
A global multiobjective design optimization method is introduced for optimizing three-
dimensional geometries based on topology optimization. To validate the method's …
dimensional geometries based on topology optimization. To validate the method's …
Numerical study of three-dimensional flow characteristics around the wing airfoil E562 with forward and rearward wingtip fence
Airfoil is an aerodynamic model that is widely used both on aircraft wings, Unmanned Aerial
Vehicle (UAV) and fluid machines such as pumps, compressors, and turbines. The airfoil on …
Vehicle (UAV) and fluid machines such as pumps, compressors, and turbines. The airfoil on …