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Wing–vortex interaction: unraveling the flowfield of a hovering rotor (2015)

Bhagwat, Mahendra J. ; Caradonna, Francis X. ; Ramasamy, Manikandan

Springer

In: Experiments in Fluids. 2015; 56(1): 19. Published 2015 Jan 01. doi: 10.1007/s00348-014-1893-3.

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Publication Date: 2015-01-01

Print ISSN: 0723-4864

Electronic ISSN: 1432-1114

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Published by Springer

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The development of a CFD potential method for the analysis of tilt-rotors (1991)

Bridgeman, John O. ; Prichard, Devon ; Caradonna, Francis X.

In: Other Sources

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Publication Date: 2011-08-24

Description: A new CFD potential code, FPX (eXtended Full-Potential), has been developed for application to both helicopters and tilt-rotors. The code solves the unsteady, three-dimensional full potential equation and is an extension of the rotor code, FPR. Both entropy and viscosity corrections are included to enhance the physical modeling capabilities. A number of efficiency related modifications have yielded a factor of two speed-up in the code. An axial flow capability has been added to treat tilt-rotor in forward flight (cruise mode). In order to employ streamwise periodicity and accurately solve for the propagation of acoustic signals in the tip region, an H-H topology has been added to the basic O-H grid system. Computations are performed for the XV-15 Standard and ATB blades at high-speed conditions. Comparisons are made for the blade aerodynamics and the induced fuselage cabin pressure for a range of Mach numbers. Grid generation, wake treatment, and far-field wall treatment are identified as problem areas with recommendations for future research.

Keywords: AERODYNAMICS

Type: In: AHS and Royal Aeronautical Society, Technical Specialists' Meeting on Rotorcraft Acoustics(Fluid Dynamics, Philadelphia, PA, Oct. 15-17, 1991, Proceedings (A93-29401 10-71); 15 p.

Format: text

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Conservative full-potential model for unsteady transonic rotor flows (1987)

Caradonna, Francis X. ; Strawn, Roger C.

In: Other Sources

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Publication Date: 2011-08-19

Keywords: AERODYNAMICS

Type: AIAA Journal (ISSN 0001-1452); 25; 193-198

Format: text

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An experimental and computational study of rotor-vortex interactions (1988)

Bridgeman, John O. ; Caradonna, Francis X. ; Strawn, Roger C.

In: Other Sources

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Publication Date: 2011-08-19

Description: An experimental and computational study has been performed on a close rotor-blade/vortex interaction. Surface pressure data was obtained from a rotor operating close to the tip-vortex from an upstream wing in a wind tunnel. Data was obtained for a wide range of blade-vortex proximities, orientations, and blade-tip Mach numbers (up to the transonic regime). A numerical model of these interactions was constructed using the unsteady, three-dimensional, full-potential rotor code called FPR. The model employed an undistorted full-field representation of the measured vortex. This simple model gave excellent comparisons with the data for a wide range of conditions, including parallel head-on interactions. Computational studies have also been performed on the manner of vortex representation and the influence of vortex-core size.

Keywords: AERODYNAMICS

Type: Vertica (ISSN 0360-5450); 12; 4, 19

Format: text

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Advanced rotor computations with a corrected potential method (1989)

Chen, Ching S. ; Strawn, Roger C. ; Caradonna, Francis X. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: An unsteady Full-Potential Rotor code (FPR) has been enhanced with modifications directed at improving its drag prediction capability. The potential code has been rewritten with modifications to increase the code accuracy. Also, the shock generated entropy has been included to provide solutions comparable to the Euler equations. Two different weakly interacted boundary layer models have also been coupled to FPR in order to estimate skin-friction drag. One is a two-dimensional integral method and the other is a three-dimensional finite-difference scheme. The new flow solver is able to find accurate inviscid drags without recourse to numerical error tares. This permits the resolution of drag distributions resulting from rotor geometric variations. Good comparisons have been obtained between computed and measured torque for a rectangular and a highly swept model rotor.

Keywords: AERODYNAMICS

Type: AHS Annual Forum; May 22, 1989 - May 24, 1989; Boston, MA; United States

Format: text

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An entropy and viscosity corrected potential method for rotor performance prediction (1988)

Caradonna, Francis X. ; Bridgeman, John O. ; Strawn, Roger C.

In: Other Sources

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Publication Date: 2019-07-13

Description: An unsteady Full-Potential Rotor code (FPR) has been enhanced with modifications directed at improving its drag prediction capability. The shock generated entropy has been included to provide solutions comparable to the Euler equations. A weakly interacted integral boundary layer has also been coupled to FPR in order to estimate skin-friction drag. Pressure distributions, shock positions, and drag comparisons are made with various data sets derived from two-dimensional airfoil, hovering, and advancing high speed rotor tests. In all these comparisons, the effect of the nonisentropic modification improves (i.e., weakens) the shock strength and wave drag. In addition, the boundary layer method yields reasonable estimates of skin-friction drag. Airfoil drag and hover torque data comparisons are excellent, as are predicted shock strength and positions for a high speed advancing rotor.

Keywords: AERODYNAMICS

Type: Annual Forum of the AHS; Jun 16, 1988 - Jun 18, 1988; Washington, DC; United States

Format: text

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