Joseph H. Ruf scite author profile

Surveys of both the static and dynamic wall pressure signatures on the interior surface of a sub-scale, cold-flow and thrust optimized parabolic nozzle are conducted during fixed nozzle pressure ratios corresponding to FSS and RSS states. The motive is to develop a better understanding for the sources of off-axis loads during the transient start-up of overexpanded rocket nozzles. During FSS state, pressure spectra reveal frequency content resembling SWTBLI. Presumably, when the internal flow is in RSS state, separation bubbles are trapped by shocks and expansion waves; interactions between the separated flow regions and the waves produce asymmetric pressuredistributions. An analysis of the azimuthal modes reveals how the breathing mode encompasses most of the resolved energy and that the side load inducing mode is coherent with the response moment measured by strain gauges mounted upstream of the nozzle on a flexible tube. Finally, the unsteady pressure is locally more energetic during RSS, albeit direct measurements of the response moments indicate higher side load activity when in FSS state. It is postulated that these discrepancies are attributed to cancellation effects between annular separation bubbles.

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Nozzle Side Load Testing and Analysis at MSFC

Ruf¹,

McDaniels²,

Brown³

2009

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The plume physics behind aerospike nozzle altitude compensation and slipstream effect

Ruf

McConaughey

1997

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Characterization of Side Load Phenomena Using Measurement of Fluid/Structure Interaction

Brown

Ruf²,

Reed³

et al. 2002

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Details of Side Load Test Data and Analysis for a Truncated Ideal Contour Nozzle and a Parabolic Contour Nozzle

Ruf¹,

McDaniels²,

Brown³

2010

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Joseph H. Ruf

Wall Pressure Unsteadiness and Side Loads in Overexpanded Rocket Nozzles

Nozzle Side Load Testing and Analysis at MSFC

The plume physics behind aerospike nozzle altitude compensation and slipstream effect

Characterization of Side Load Phenomena Using Measurement of Fluid/Structure Interaction

Details of Side Load Test Data and Analysis for a Truncated Ideal Contour Nozzle and a Parabolic Contour Nozzle

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