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1

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Study of multibody aerodynamic interference at transonic Mach numbers (1988)

Martinez, Agusto ; Cottrell, Charles J. ; Chapman, Gary T.

In: Other Sources

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Publication Date: 2011-08-19

Keywords: AERODYNAMICS

Type: AIAA Journal (ISSN 0001-1452); 26; 553-560

Format: text

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2

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Predictions of wing and pylon forces caused by propeller installation (1987)

Martinez, Rudolph

In: CASI

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Publication Date: 2019-06-28

Description: Replacement of current turbojets by high-efficiency unducted propfans could have the unfortunate side effect of increasing cabin noise, essentially because unsteady-aerodynamic mechanisms are likely to be introduced whereby some of the energy saved may be lost again, to the production of propeller noise and to wing/pylon vibrations coupling to the cabin as a sounding board. The present study estimates theoretically associated harmonic aerodynamic forces for two candidate configurations: a pusher propeller which chops through the mean wake of the pylon supporting it, and in the process generates a blade-rate force driving the structure, and a tractor wing-mounted propeller, whose trailing rotating wake induces an unsteady downwash field generating unsteady wing airloads. Reported predictions of such propfan aerodynamic sources of structure-borne sound, or vibration, could be the basis for devising means for their mechanical isolation, and thus for the effective interruption of the structural noise path into the cabin. Both mechanisms are analyzed taking advantage of the high subsonic Mach number and high reduced frequency of the interaction between the impinging flow and the affected aerodynamic element.

Keywords: ACOUSTICS

Type: NASA-CR-178298 , NAS 1.26:178298 , U-1411-349.10

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3

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Aeroacoustic diffraction and dissipation by a short propeller cowl in subsonic flight (1993)

Martinez, Rudolph

In: CASI

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Publication Date: 2019-06-28

Description: This report develops and applies an aeroacoustic diffraction theory for a duct, or cowl, placed around modelled sources of propeller noise. The regime of flight speed is high subsonic. The modelled cowl's inner wall contains a liner with axially variable properties. Its exterior is rigid. The analysis replaces both sides with an unsteady lifting surface coupled to a dynamic thickness problem. The resulting pair of aeroacoustic governing equations for a lined 'ring wing' is valid both for a passive and for an active liner. Their numerical solution yields the effective dipole and monopole distributions of the shrouding system and thereby determines the cowl-diffracted component of the total radiated field. The sample calculations here include a preliminary parametric search for that liner layout which maximizes the cowl's shielding effectiveness. The main conclusion of the study is that a short cowl, passively lined, should provide moderate reductions in propeller noise.

Keywords: ACOUSTICS

Type: NASA-CR-190801 , E-7717 , NAS 1.26:190801

Format: application/pdf

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4

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The use of cowl camber and taper to reduce rotor/stator interaction noise (1995)

Martinez, R.

In: CASI

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Publication Date: 2019-06-28

Description: The project had two specific technical objectives: (1) to develop a realistic three-dimensional model of tonal noise due to rotor/stator interaction, as the input field for predictions of diffraction and dissipation by a lined cowl; and (2) to determine whether the generator curve of that cowl, or duct, could be 'steered' to yield substantially lower values of propulsor noise along the engine's fore and aft open sectors. The more general and important aim of their research is to provide the commercial aircraft industry with a useful predictive tool to help it meet its noise-reduction goals. The work has produced a tractable and yet realistic model of rotor/stator interaction noise. The blades in the fan stage are radially divergent, twisted, and of realistically wide chords to match the high frequencies and speeds of the sound-production process. The resulting three-dimensional acoustic nearfield insonifies the interior wall of the diffracting cowl, whose shape, incidentally, does not affect fore or aft noise significantly (but other factors do).

Keywords: ACOUSTICS

Type: NASA-CR-195421 , E-9364 , NAS 1.26:195421

Format: application/pdf

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5

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Analytical model of the structureborne interior noise induced by a propeller wake (1984)

Martinez, R. ; Garrelick, J. M. ; Cole, J. E., III ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The structure-borne contribution to the interior noise that is induced by the propeller wake acting on the wing was studied. Analytical models were developed to describe each aspect of this path including the excitation loads, the wing and fuselage structures, and the interior acoustic space. The emphasis is on examining a variety of parameters, and as a result different models were developed to examine specific parameters. The excitation loading on the wing by the propeller wake is modeled by a distribution of rotating potential vortices whose strength is related to the thrust per blade. The response of the wing to this loading is examined using beam models. A model of a beam structurally connected to a cylindrical shell with an internal acoustic fluid was developed to examine the coupling of energy from the wing to the interior space. The model of the acoustic space allows for arbitrary end conditions (e.g., rigid or vibrating end caps). Calculations are presented using these models to compare with a laboratory test configuration as well as for parameters of a prop-fan aircraft.

Keywords: ACOUSTICS

Type: NASA-CR-172381 , NAS 1.26:172381

Format: application/pdf

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6

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Aerodynamic theory for wing with side edge passing subsonically through a gust (1983)

Widnall, S. E. ; Martinez, R.

In: Other Sources

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Publication Date: 2019-06-28

Description: An approximate solution for the unsteady loading near the square-shape tip of a wing passing through an oblique gust is obtained in closed form. The aerodynamic theory developed can be used to predict airloads felt by a helicopter blade experiencing a blade/vortex interaction for high blade tip speed and/or for small vertical blade/vortex separation. Under these conditions one can show that the blade's trailing edge has little influence on the character of the chordwise loading at all spanwise sections; thus, the chord may be allowed to extend to infinity in the downstream direction. Therefore, the model considered here is that of a quarter-infinite flat plate wing with side edge passing subsonically through an oblique gust.

Keywords: AERODYNAMICS

Type: AIAA Journal (ISSN 0001-1452); 21; June 198

Format: text

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7

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Unified aerodynamic-acoustic theory for a thin rectangular wing encountering a gust (1980)

Widnall, S. E. ; Martinez, R.

In: Other Sources

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Publication Date: 2019-06-27

Description: A linear aerodynamic-acoustic theory is developed for the prediction of the surface pressure distribution and three-dimensional acoustic far-field for a flat plate rectangular wing encountering a stationary short-wavelength oblique gust. It is suggested that for an infinite-span wing, leading- and trailing-edge responses to a short-wavelength gust are essentially independent. This idea is used to solve for the two-dimensional pressure field due to the passage of an infinite-span wing through an oblique gust. By allowing the field point to come down to the wing's surface, one finds an expression for the surface pressure distribution which agrees with that given in the two-dimensional aerodynamic theories of Amiet and Adamczyk. Spanwise Fourier superposition of two-dimensional solutions to the infinite-span wing problem is used to approximate the three-dimensional acoustic field due to the interaction of a stationary oblique gust with a flat-plate rectangular wing traveling at a subsonic speed.

Keywords: AERODYNAMICS

Type: AIAA Journal; 18; June 198

Format: text

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8

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An aeroacoustic model for high-speed, unsteady blade-vortex interaction (1983)

Martinez, R. ; Widnall, S. E.

In: Other Sources

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Publication Date: 2019-06-28

Description: A three-dimensional aeroacoustic model is developed to predict the sound pulse radiated by the passage of a helicopter blade over a potential vortex. The linearized analysis assumes that either the blade-vortex separation is small or that the blade-tip Mach number is close to 1, or both, so that an acoustically noncompact situation exists. The three-dimensional blade loading due to blade-vortex interaction is constructed through a spanwise superposition of two-dimensional solutions with strength linearly increasing from hub to tip. Such a loading overestimates somewhat the strength of tip region dipoles in the acoustic calculation that follows. The final expression for the predicted far-field signature is obtained in closed form, and thus permits a relatively inexpensive calculation of the directivity of peak acoustic pressures in three dimensions.

Keywords: ACOUSTICS

Type: AIAA Journal (ISSN 0001-1452); 21; Sept

Format: text

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9

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A study of multi-body aerodynamic interference at transonic Mach numbers (1987)

Chapman, Gary T. ; Martinez, Agusto ; Cottrell, Charles J.

In: Other Sources

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Publication Date: 2019-06-28

Description: A wind tunnel experiment involving single, double, and triple combinations of mutually interfering generic, unfinned aircraft stores has been conducted. Each combination of stores was tested at Mach numbers from 0.60 to 1.20 and at angles of attack from 0 to 25 deg for the single store and from 0 to 6 deg for the double and triple store configurations. Extensive axial and circumferential pressure and flow visualization data at each store location were obtained. Euler solutions for each configuration at 0 deg incidence have been generated and compared with experimental data. This comparison indicates an Euler flow solver can yield accurate predictions of the location and magnitude of multibody interference provided an appropriate grid is used and the viscous effects associated with these configurations remain small. The data indicate multibody interference in the transonic region increases as the freestream Mach number approaches 1 from either direction, and subsides as the Mach number moves away from sonic conditions. This interference is characterized by a large, localized reduction in pressure on the inboard surfaces of the bodies which results in forces that draw the configuration closer together.

Keywords: AERODYNAMICS

Type: AIAA PAPER 87-0519

Format: text

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10

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Motion Imagery and Robotics Application (MIRA) (2011)

Martinez, Lindolfo ; Rich, Thomas

In: CASI

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Publication Date: 2019-07-13

Description: Objectives include: I. Prototype a camera service leveraging the CCSDS Integrated protocol stack (MIRA/SM&C/AMS/DTN): a) CCSDS MIRA Service (New). b) Spacecraft Monitor and Control (SM&C). c) Asynchronous Messaging Service (AMS). d) Delay/Disruption Tolerant Networking (DTN). II. Additional MIRA Objectives: a) Demo of Camera Control through ISS using CCSDS protocol stack (Berlin, May 2011). b) Verify that the CCSDS standards stack can provide end-to-end space camera services across ground and space environments. c) Test interoperability of various CCSDS protocol standards. d) Identify overlaps in the design and implementations of the CCSDS protocol standards. e) Identify software incompatibilities in the CCSDS stack interfaces. f) Provide redlines to the SM&C, AMS, and DTN working groups. d) Enable the CCSDS MIRA service for potential use in ISS Kibo camera commanding. e) Assist in long-term evolution of this entire group of CCSDS standards to TRL 6 or greater.

Keywords: Cybernetics, Artificial Intelligence and Robotics

Type: JSC-CN-23518 , CCSDS Spring 2011; May 16, 2011 - May 20, 2011; Berlin; Germany

Format: application/pdf

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