A Comprehensive Analytical Model for Vortex Shedding From Low-Speed Axial Fan Blades

Daku, Gábor; Vad, János

doi:10.1115/gt2022-80190

Volume 5: Education; Electric Power; Fans and Blowers 2022

DOI: 10.1115/gt2022-80190

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A Comprehensive Analytical Model for Vortex Shedding From Low-Speed Axial Fan Blades

Gábor Daku

János Vad

Abstract: The paper presents a comprehensive analytical model for the characterization of von Karman vortex shedding in the wake of models of low-speed axial fan blades. The elaborated minimal model is based on the Reynolds-averaged Navier-Stokes and continuity equations. For validation purposes, hot-wire measurements have been carried out in a wind tunnel on representative blade profiles. The measurement data obtained for various streamwise positions downstream of the blade trailing edge, i.e. transversal profiles of m… Show more

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Models for Estimation of Lift and Drag Coefficients for Low-Reynolds-Number Cambered Plates

Balla

Vad

2022

AIAA Journal

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Empirical models capable of predicting the lift and drag coefficients of circular-arc cambered plate blades are presented, together with the detailed documentation of the related wind-tunnel technique and data evaluation. The blade profiles are equipped with rounded leading and trailing edges. The empirical models offer an easy-to-use tool for preliminary design of low-solidity low-speed blade cascades. By means of the models, the lift-coefficient range of 0–1.3 is covered, associated with the drag coefficient varying between 0.02 and 0.14. The validity ranges of the empirical models are as follows: Reynolds-number between [Formula: see text] and [Formula: see text], relative camber ranging from 0 to 8%, and angle of attack between 0 and 8 deg. The force coefficients are expressed as a function of relative camber, angle of attack, and Reynolds-number. The models assume linear relationships between the Reynolds-number and the force coefficients, as inspired by the literature and justified by statistical means. The dependence of the force coefficients on the angle of attack and the relative camber is expressed by incorporating second-order polynomials. The trends of force changes with Reynolds-number are analyzed. The cases of apparently extraordinary trends in the Reynolds-number dependence (i.e., increasing drag and decreasing lift with increasing Reynolds-number) are discussed in detail. A method for the determination of the confidence intervals related to the models is presented, and a detailed uncertainty analysis is provided. On this basis, the relative errors of the force coefficients can be quantified in a case-specific, empirical manner.

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Models for Estimation of Lift and Drag Coefficients for Low-Reynolds-Number Cambered Plates

Balla

Vad

2022

AIAA Journal

View full text Add to dashboard Cite

show abstract

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A Comprehensive Analytical Model for Vortex Shedding From Low-Speed Axial Fan Blades

Cited by 1 publication

References 0 publications

Models for Estimation of Lift and Drag Coefficients for Low-Reynolds-Number Cambered Plates

Models for Estimation of Lift and Drag Coefficients for Low-Reynolds-Number Cambered Plates

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