Gerald E. Plassman scite author profile

Gerald E. Plassman

5Publications

60Citation Statements Received

66Citation Statements Given

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Affiliations

National Institute of Aerospace, Langley Research Center

Publications

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DAMAS Processing for a Phased Array Study in the NASA Langley Jet Noise Laboratory

Brooks

Humphreys

Plassman

2010

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A jet noise measurement study was conducted using a phased microphone array system for a range of jet nozzle configurations and flow conditions. The test effort included convergent and convergent/divergent single flow nozzles, as well as conventional and chevron dual-flow core and fan configurations. Cold jets were tested with and without wind tunnel co-flow, whereas, hot jets were tested only with co-flow. The intent of the measurement effort was to allow evaluation of new phased array technologies for their ability to separate and quantify distributions of jet noise sources. In the present paper, the array post-processing method focused upon is DAMAS (Deconvolution Approach for the Mapping of Acoustic Sources) for the quantitative determination of spatial distributions of noise sources. Jet noise is highly complex with stationary and convecting noise sources, convecting flows that are the sources themselves, and shock-related and screech noise for supersonic flow. The analysis presented in this paper addresses some processing details with DAMAS, for the array positioned at 90° (normal) to the jet. The paper demonstrates the applicability of DAMAS and how it indicates when strong coherence is present. Also, a new approach to calibrating the array focus and position is introduced and demonstrated.

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Calibrations of the NASA Langley 14- by 22-Foot Subsonic Tunnel in Acoustic Configuration

Spalt

Brooks

Bahr

et al. 2014

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Airframe Noise from a Hybrid Wing Body Aircraft Configuration

Hutcheson

Spalt

Brooks

et al. 2016

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A high fidelity aeroacoustic test was conducted in the NASA Langley 14-by 22-Foot Subsonic Tunnel to establish a detailed database of component noise for a 5.8% scale HWB aircraft configuration. The model has a modular design, which includes a drooped and a stowed wing leading edge, deflectable elevons, twin verticals, and a landing gear system with geometrically scaled wheel-wells. The model is mounted inverted in the test section and noise measurements are acquired at different streamwise stations from an overhead microphone phased array and from overhead and sideline microphones. Noise source distribution maps and component noise spectra are presented for airframe configurations representing two different approach flight conditions. Array measurements performed along the aircraft flyover line show the main landing gear to be the dominant contributor to the total airframe noise, followed by the nose gear, the inboard side-edges of the LE droop, the wing tip/LE droop outboard side-edges, and the side-edges of deployed elevons. Velocity dependence and flyover directivity are presented for the main noise components. Decorrelation effects from turbulence scattering on spectral levels measured with the microphone phased array are discussed. Finally, noise directivity maps obtained from the overhead and sideline microphone measurements for the landing gear system are provided for a broad range of observer locations.

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Experimental Study of Wake / Flap Interaction Noise and the Reduction of Flap Side Edge Noise

Hutcheson

Stead

Plassman

2016

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Airframe noise from a hybrid wing body aircraft configuration

Hutcheson

Spalt

Brooks

et al. 2017

International Journal of Aeroacoustics

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