Effect of Angle of Attack on Airfoil NACA 0012 Performance

Akbar, Ali

doi:10.21070/r.e.m.v5i1.1235

Cited by 2 publications

(1 citation statement)

References 7 publications

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“…The lift coefficient curve is linear dependent for −10• < α < 10•. One of the geometric parameters that determines the result of airfoil lift is the location of its maximum thickness [7]. This study shows wind tunnel capabilities to obtain a body's aerodynamic characteristics.…”

Section: Introductionmentioning

confidence: 90%

Arduino IoT Controller for Angle of Attack Measurement with Force Balance

Pratama,

Ikhsan,

Permana

2024

ijsecs

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The force balance system uses the whitestone bridge concept to read the airfoil aerodynamic lift and drag forces while also having a function to control the airfoil angle of attack. It is designed for low subsonic wind tunnels, especially for educational purposes. The system uses Arduino as the microcontroller to read the force data from the load cell sensors and gives commands to the rotary motor stepper to change the airfoil angle of attack. Arduino is combined with a novel mechanical linkage system designed and studied to ensure the sensors can read the correct airfoil lift and drag forces. The angle of attack is controlled with a smartphone to decide the degree of airfoil. The reading of the system is validated using spring balance that pulls the system with magnitudes of 1,1.5, 2, 2.5, and 3 kg in some pulling force angle. The results show that the reading of the system is accurate compared to the theoretical results, with an average error of 2 %. The force measuring tool on the airfoil is the first step in a series of steps to produce the final project, namely the wind turbine. Research suggests that the load cell must be positioned correctly so that the sensor reading error can be increased again. The stepper motor must be turned off the bottom shaft to prevent the airfoil from rotating.

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Section: Introductionmentioning

confidence: 90%

Arduino IoT Controller for Angle of Attack Measurement with Force Balance

Pratama,

Ikhsan,

Permana

2024

ijsecs

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Simulasi Numerik Karakteristik Aerodinamika Pada Airfoil Naca 4415 Dengan Mempertimbangkan Ground Effect

Hayuningtyas¹,

Nugroho²,

Jalaali³

2023

Vortex

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Ground effect phenomenon is found when the lift-device such as wing, is placed near the ground. This phenomenon influences the aerodynamics characteristic whereby its appearance is important to be investigated. This work aims to study the influence of ground effect towards aerodynamics characteristion on the NACA4415 airfoil by varying the airfoil’s angle of attack (AoA) as well as the height of ground proximity. Numerical approach conducted on Fluent was carried out while steady assumption, moving wall boundary, and Spalart-Allmaras turbulence model were utilized. The outcomes were aerodynamics characteristic represented by lift and drag coefficients. The results showed that maximum was 1.736 on AoA 15o while maximum was 0.0108 on AoA 18o respectively. It also found that ground proximity also was affecting the values of and . On the height of 0.05 chord, maximum characteristic of lift was obtained while maximum drag was on the 0.8 chord at AoA 18o. It caused by airflow underneath the airfoil was faster due to the ground effect revaling the nozzle-effect, therefore the pressure was higher as according to the Bernoulli’s formulation. On the other hand, drag was related to the vortex generation in which AoA more influental than that of height. This work is hopefully beneficial as initial reference on the Wing-in-Ground (WIG) craft design, in particular on the airfoil selection.

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Effect of Angle of Attack on Airfoil NACA 0012 Performance

Cited by 2 publications

References 7 publications

Arduino IoT Controller for Angle of Attack Measurement with Force Balance

Arduino IoT Controller for Angle of Attack Measurement with Force Balance

Simulasi Numerik Karakteristik Aerodinamika Pada Airfoil Naca 4415 Dengan Mempertimbangkan Ground Effect

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