Optimizing High-Lift Airfoils for Formula Student Vehicles

Prthik Nandhan Karthikeyan; Jayakrishnan Radhakrishnan

doi:10.4271/2024-01-5059

Optimizing High-Lift Airfoils for Formula Student Vehicles

Prthik Nandhan Karthikeyan
, Jayakrishnan Radhakrishnan

Manipal Institute of Technology, Manipal

Research output: Contribution to journal › Conference article › peer-review

Abstract

This document presents a study on the design and simulation of a high-lift airfoil intended for usage in multielement setups such as the wings present on open-wheel race cars. With the advancement of open-wheel race car aerodynamics, the design of existing high-lift airfoils has been altered to create a more useful and practical general profile. Adjoint optimization tools in CFD (ANSYS Fluent) were employed to increase the airfoil's performance beyond existing high-lift profiles (Selig S1223). Improvements of up to 20% with a CL of 2.4 were recorded. To further evaluate performance, the airfoil was made the basis of a full three-dimensional aerodynamics package design for an open-wheel Formula Student car. CFD simulations were carried out on the same and revealed performance characteristics of the airfoil in a more practical application. These CFD simulations were calibrated with experimental values from coast-down testing data with an accuracy of 8%.

Original language	English
Journal	SAE Technical Papers
DOIs	https://doi.org/10.4271/2024-01-5059
Publication status	Published - 2024
Event	SAE Automotive Technical Papers, WONLYAUTO 2024 - Warrendale, United States Duration: 01-01-2024 → …

All Science Journal Classification (ASJC) codes

Automotive Engineering
Safety, Risk, Reliability and Quality
Pollution
Industrial and Manufacturing Engineering

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10.4271/2024-01-5059

Cite this

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title = "Optimizing High-Lift Airfoils for Formula Student Vehicles",

abstract = "This document presents a study on the design and simulation of a high-lift airfoil intended for usage in multielement setups such as the wings present on open-wheel race cars. With the advancement of open-wheel race car aerodynamics, the design of existing high-lift airfoils has been altered to create a more useful and practical general profile. Adjoint optimization tools in CFD (ANSYS Fluent) were employed to increase the airfoil's performance beyond existing high-lift profiles (Selig S1223). Improvements of up to 20\% with a CL of 2.4 were recorded. To further evaluate performance, the airfoil was made the basis of a full three-dimensional aerodynamics package design for an open-wheel Formula Student car. CFD simulations were carried out on the same and revealed performance characteristics of the airfoil in a more practical application. These CFD simulations were calibrated with experimental values from coast-down testing data with an accuracy of 8\%.",

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AB - This document presents a study on the design and simulation of a high-lift airfoil intended for usage in multielement setups such as the wings present on open-wheel race cars. With the advancement of open-wheel race car aerodynamics, the design of existing high-lift airfoils has been altered to create a more useful and practical general profile. Adjoint optimization tools in CFD (ANSYS Fluent) were employed to increase the airfoil's performance beyond existing high-lift profiles (Selig S1223). Improvements of up to 20% with a CL of 2.4 were recorded. To further evaluate performance, the airfoil was made the basis of a full three-dimensional aerodynamics package design for an open-wheel Formula Student car. CFD simulations were carried out on the same and revealed performance characteristics of the airfoil in a more practical application. These CFD simulations were calibrated with experimental values from coast-down testing data with an accuracy of 8%.

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Optimizing High-Lift Airfoils for Formula Student Vehicles

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