Formulaton of a general technique for predicting pneumatic attenuation errors in airborne pressure sensing devicesPresented is a mathematical model, derived from the Navier-Stokes equations of momentum and continuity, which may be accurately used to predict the behavior of conventionally mounted pneumatic sensing systems subject to arbitrary pressure inputs. Numerical techniques for solving the general model are developed. Both step and frequency response lab tests were performed. These data are compared against solutions of the mathematical model. The comparisons show excellent agreement. The procedures used to obtain the lab data are described. In-flight step and frequency response data were obtained. Comparisons with numerical solutions of the mathematical model show good agreement. Procedures used to obtain the flight data are described. Difficulties encountered with obtaining the flight data are discussed.
Document ID
19880051480
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Whitmore, Stephen A. (NASA Flight Research Center Edwards, CA, United States)