A technology development program was undertaken to determine if the benefits of hybrid rocket propulsion could be realized for a Mars Ascent Vehicle (MAV) application. Specifically, the goal of this program was to increase the Technology Readiness Level (TRL) of a hybrid propulsion system such that it could be considered for a potential Mars Sample Return Campaign. Over the course of approximately five years, a new, wax-based fuel was developed, characterized and tested with Mixed Oxides of Nitrogen (from MON-3 to MON-25). Various ignition mechanisms were tested and solid hypergolic additives were evaluated for their potential to ignite the hybrid motor. Several hot-fire test campaigns were completed at both sub- and full-scale. The technology development program was born out of a JPL study documented by Shotwell and Karp that identified the Single Stage to Orbit (SSTO) hybrid propulsion system for a potential Mars Ascent Vehicle to be the lowest Gross Lift Off Mass option from the ten configurations evaluated. Benefits of the hybrid option included its predicted favorable low temperature storage and operation behavior, high performance and ability to restart (enabling the SSTO). The main disadvantage of the hybrid option was its low TRL,as it essentially started as a blank sheet design with a new fuel development. Near the end of the technology development program, a Preliminary Architecture Assessment (PAA) was completed to evaluate a single-stage hybrid propulsion system and a two-stage solid propulsion system for a potential MAV. The solid propulsion system was selected for further study in 2019, primarily because of its flight heritage. While the hybrid technology development program made many strides, there was still a list of challenges to overcome. This paper will discuss the substantial progress and remaining challenges from the technology development effort from 2015 through 2019. This includes fuel development and reformulation, sub- and full-scale testing at Space Propulsion Group, full scale testing at Parabilis, full scale testing at Whittinghill Aerospace, hypergolic additive testing at Purdue and Penn State and the evaluation of adding hypergolic additives to a full-scale grain. It also includes a discussion of the design that resulted from the Preliminary Architecture Assessment.


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    Titel :

    Mars Ascent Vehicle Hybrid PropulsionEffort


    Beteiligte:
    George Story (Autor:in) / Ashley Karp (Autor:in) / Barry Nakazono (Autor:in) / Gregory Zilliac (Autor:in) / Brian Evans (Autor:in) / George Whittinghill (Autor:in)

    Kongress:

    AIAA Propulsion and Energy Forum 2020 ; 2020 ; Virtual (Was New Orleans), US


    Medientyp :

    Aufsatz (Konferenz)


    Format :

    Keine Angabe


    Sprache :

    Englisch




    Mars Ascent Vehicle Hybrid PropulsionEffort

    G. Story / A. Karp / B. Nakazono et al. | NTIS | 2020


    Mars Ascent Vehicle Hybrid Propulsion Development

    Story, George / Karp, Ashley / Nakazono, Barry et al. | NTRS | 2019


    MARS ASCENT VEHICLE HYBRID PROPULSION EFFORT

    Story, George T. / Karp, Ashley C. / Nakazono, Barry et al. | TIBKAT | 2020