Spectral Density Method of Liquid Propellant Gauging

Auteurs-es

  • Celestine Elyse Ananda Carthage College

DOI :

https://doi.org/10.17307/wsc.v1i1.307

Mots-clés :

Modal Propellant Gauging, Spectral Density, Structural Analysis, Modal Analysis, Fourier Analysis

Résumé

My summer internship experience with NASA Kennedy Space Center’s Advanced Engineering Development Branch focused on collecting and processing data to aid in developing Modal Propellant Gauging (MPG) for use in future Orion/SLS missions. The MPG project is an effort to develop a non-invasive low-cost propellant mass gauging technology for application to existing spacecraft propellant tanks in both low-gravity and earth-loading applications. During my internship I constructed a fuel gauging framework through characterizing the modal signature of a composite-overwrap liquid propellant tank used for testing purposes. I accomplished this through: writing and implementing algorithms that apply broadband white noise signals to piezoelectric actuators adhered to the tank surface, processing acoustic data using Fourier analysis, and producing frequency response functions to experimentally determine resonant modes of the tank structure. A limitation of the current MPG technique is that it does not work in environments with changing pressure; during my internship I also made fundamental contributions to the development of the Spectral Density Propellant Gauging Method, a technique that does not depend on the stiffness of the tank walls.


Biographie de l'auteur-e

Celestine Elyse Ananda, Carthage College

Undergraduate Physics major

Références

Crosby, Kevin M., et al. “Modal Propellant Gauging: High-Resolution and Non-Invasive Gauging of Both Settled and Unsettled Liquids in Reduced Gravity.” Acta Astronautica, vol. 159, 2019, pp. 499–507., doi:10.1016/j.actaastro.2019.01.050.

Whitley, R., & Martinez, R. (2015, October 21). Options for Staging Orbits in Cis-Lunar Space. Retrieved July 1, 2019, from https://ntrs.nasa.gov/archive/nasa/.

Téléchargements

Publié-e

2020-03-16

Comment citer

Ananda, C. E. (2020). Spectral Density Method of Liquid Propellant Gauging. Proceedings of the Wisconsin Space Conference, 1(1). https://doi.org/10.17307/wsc.v1i1.307

Numéro

Rubrique

Physics and Engineering