EFFECT OF CIRCUMFERENTIAL SURFACE PRESSURE INTEGRATION ON LAUNCH VEHICLE BUFFET FORCING FUNCTIONS

Martin K. Sekula, David J. Piatak, Russ D. Rausch

DOI Number: N/A

Conference number: IFASD-2017-176

The 2014 test of the Space Launch System (SLS) Rigid Buffet Model conducted at the NASA Langley Transonic Dynamics Tunnel employed an extremely high number of unsteady pressure transducers. The high channel count provided an opportunity to examine the effect of transducer placement on the resulting buffet forcing functions (BFFs). Rings of transducers on the forward half of the model were employed to simulate a single-body vehicle. The impact of transducer density, circumferential distribution, and loss of a single transducer on the resulting BFFs were examined. Rings of transducers on the aft half of the SLS model were employed to examine the effect of transducer density and circumferential distribution on BFFs for a multibody configuration. Transducer placement considerations with respect to model size, facility infrastructure, and data acquisition system capabilities, which affect the integration process, are also discussed.

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buffet forcing functions, experimental unsteady aerodynamics, Launch vehicle buffet

In Categories: 1.Events, IFASD 2017, Steady/Unsteady Aerodynamics

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