A gas management system for an ultra long duration Titan blimp |
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Authors: | JL Hall JA Jones L Brooke B Hennings R Van Boeyen AH Yavrouian J Mennella VV Kerzhanovich |
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Institution: | 1. Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA 91109, United States;2. Tensys Dynamics Ltd., 1 St. Swithins Yard, Walcot Street, Bath BA1 5BG, United Kingdom;3. Lynntech Inc., 7610 Eastmark Drive, College Station, TX 77840, United States |
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Abstract: | This paper presents analyses, designs and experimental results for the gas management system of a hydrogen-filled blimp capable of flying in the lower atmosphere of Titan for a period of 1 year or more. The engineering strategy has two basic elements: first, to minimize leakage rates from the blimp envelope and ballonets; and second, to provide auxiliary subsystems to mitigate the life-limiting effects resulting from those leaks. Leak minimization is achieved through use of cryogenically compatible balloon materials and adhesives, and selection of ballonet geometries that minimize pinhole generation via folding and material fatigue. Hydrogen loss to the environment through leaks in the blimp envelope is compensated by producing new hydrogen through chemical processing of atmospheric methane. Nitrogen leaked into the blimp from the ballonets is removed by a carbon absorption system and periodically vented to the atmosphere. Data is presented on the measured leak rate from a full scale (13 m long) prototype blimp envelope and on the performance of a low mass, low power prototype device that generates hydrogen from methane. These results are factored in to an overall system design that quantifies the mass and power requirements for a minimum 1 year operational lifetime. |
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Keywords: | Aerobot Balloon Blimp Titan Mobility |
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