Realistic near-term propellant depots: Implementation of a critical spacefaring capability
Abstract
Orbital cryogenic propellant depots and the ability to refuel spacecraft in orbit are critical capabilities for the expansion of human life throughout the Solar System. While depots have long been recognized as an important component of large-scale manned spaceflight efforts, questions about their technology readiness have so far prevented their implementation. Technological advancements in settled cryogenic handling, passive thermal control systems, and autonomous rendezvous and docking techniques make near-term implementation of cryogenic propellant depots significantly more realistic. Current work on flight-demonstration tools like ULA's CRYOTE testbed, and Masten Space Systems's XA-1.0 suborbital RLV provide methods for affordably retiring the remaining technical risks for cryogenic depots. Recent depot design concepts, built on high-TRL technologies and existing flight vehicle hardware, can enable easier implementation of first-generation propellant depots without requiring extensive development programs. Some concepts proposed by industry include disposable "pre-depots", single-fluid simple depots, self-deployable dual-fluid single-launch depots using existing launchers and near-term launcher upgrades, and multi-launch modular depots. These concepts, particularly the dual-fluid single-launch depot enable robust exploration and commercial transportation throughout the inner Solar System, without the need for HLVs, while providing badly-needed markets to encourage the commercial development of more affordable access to space. Copyright © 2009 by Masten Space Systems, United Launch Alliance, The Boeing Company, and University of Memphis.
Publication Title
AIAA Space 2009 Conference and Exposition
Recommended Citation
Goff, J., Kutter, B., Zegler, F., Bienhoff, D., Chandler, F., & Marchetta, J. (2009). Realistic near-term propellant depots: Implementation of a critical spacefaring capability. AIAA Space 2009 Conference and Exposition Retrieved from https://digitalcommons.memphis.edu/facpubs/14940