K. B. Yuceil scite author profile

An analysis and experiments were carried out to study the spreading and centerline property decay rates of underexpanded supersonic jets. The main purpose was to determine a suitable set of normalization parameters that would account for the initial expansion process and allow for a comparison of the asymptotic mixing rates of jets within a large range of exit-to-ambient pressure ratios. A set of expressions were developed for after-expansion equivalent jet exit diameter, velocity, temperature, and density to allow for a better collapse of jet spreading and centerline decay rates. Measurements were made for five different underexpanded sonic jets with jet exit-to-ambient pressure ratios of pe/pa=1, 2.5, 7.5, 15.5, and 20.3, corresponding to (isentropically) fully expanded jet Mach numbers of Mj=1, 1.68, 2.38, 2.85, and 3.03, respectively. For each jet, both centerline and profile measurements were made using special probes that simultaneously measured local total pressure, static pressure, total temperature in the jet, as well as ambient conditions. These measurements were made in the subsonic flow regime, in some cases, extending as far as 270 nozzle diameters from the exit plane. The experimental results were analyzed and the asymptotic jet properties were determined using the new renormalization parameters.

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Control of Supersonic Inlet-Isolator Unstart Using Active and Passive Vortex Generators

Valdivia

Yuceil

Wagner

et al. 2014

AIAA Journal

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Velocimetry Measurements of Unstart of an Inlet-Isolator Model in Mach 5 Flow

2010

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Assessment of predictive capabilities for aerodynamic heating in hypersonic flow

Knight

Chazot

Austin

et al. 2017

Progress in Aerospace Sciences

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K. B. Yuceil

Experimental Investigation of Unstart in an Inlet/Isolator Model in Mach 5 Flow

Scaling parameters for underexpanded supersonic jets

Control of Supersonic Inlet-Isolator Unstart Using Active and Passive Vortex Generators

Velocimetry Measurements of Unstart of an Inlet-Isolator Model in Mach 5 Flow

Assessment of predictive capabilities for aerodynamic heating in hypersonic flow

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