Celebration of Scholars
Modal Propellant Gauging: Blue Origin Payload
Name:
Celestine Ananda
Major: Physics
Hometown: New London
Faculty Sponsor: Kevin Crosby
Other Sponsors:
Type of research: Independent research
Funding: NASA Flight Opportunities, WSGC
Name:
Nicholas Bartel
Major: Physics
Hometown: New London
Faculty Sponsor: Kevin Crosby
Other Sponsors:
Type of research: Independent research
Funding: NASA Flight Opportunities, WSGC
Name:
Taylor Peterson
Major: Physics
Hometown: Racine
Faculty Sponsor: Kevin Crosby
Other Sponsors:
Type of research: Independent research
Funding: NASA Flight Opportunities, WSGC
Abstract
Since 2008, the Modal Propellant Gauging (MPG) team, consisting of multidisciplinary undergraduate researchers from Carthage College, has been developing and testing a fuel gauging system for use in microgravity environments. Using experimental modal analysis (EMA) techniques, the goal of the MPG project is to develop a flight ready technology that gauges fuel in microgravity environments by correlating the modal response of a 1-g equilibrium surface to the microgravity surface response at the same fluid fill level. The technology has been tested aboard parabolic flights via a manned parabolic flight payload. The payload consists of two propellant tanks and is designed to measure the modal response of each propellant tank to an injected white noise signal via piezoelectric sensors. Flight data shows that the MPG method can measure fuel with greater than or equal to 1% resolution at and below 50% fill levels. Under funding from the Wisconsin Space Grant Consortium during the summer of 2018, the MPG team made improvements to the Blue Origin New Shepard research payload which flew in January of 2019.Submit date: March 12, 2019, 5:04 p.m.