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Advanced Development of a Compact 5-15 lbf Lox/Methane Thruster for an Integrated Reaction Control and Main Engine Propulsion System (2011)

McManamen, John Patrick ; Hurlbert, Eric A. ; Studak, Joseph W. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This paper describes the advanced development and testing of a compact 5 to 15 lbf LOX/LCH4 thruster for a pressure-fed integrated main engine and RCS propulsion system to be used on a spacecraft "vertical" test bed (VTB). The ability of the RCS thruster and the main engine to operate off the same propellant supply in zero-g reduces mass and improves mission flexibility. This compact RCS engine incorporates several features to dramatically reduce mass and parts count, to ease manufacturing, and to maintain acceptable performance given that specific impulse (Isp) is not the driver. For example, radial injection holes placed on the chamber body for easier drilling, and high temperature Haynes 230 were selected for the chamber over other more expensive options. The valve inlets are rotatable before welding allowing different orientations for vehicle integration. In addition, the engine design effort selected a coil-on-plug ignition system which integrates a relay and coil with the plug electrode, and moves some exciter electronics to avionics driver board. The engine injector design has small dribble volumes to target minimum pulse widths of 20 msec. and an efficient minimum impulse bit of less than 0.05 lbf-sec. The propellants, oxygen and methane, were chosen because together they are a non-toxic, Mars-forward, high density, space storable, and high performance propellant combination that is capable of pressure-fed and pump-fed configurations and integration with life support and power subsystems. This paper will present the results of the advanced development testing to date of the RCS thruster and the integration with a vehicle propulsion system.

Keywords: Spacecraft Propulsion and Power

Type: JSC-CN-24265 , 47th AIAA/ASME/SAE/ASEE Joint Propulsion; Jul 31, 2011 - Aug 03, 2011; San Diego, CA; United States

Format: application/pdf

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Entry, Descent and Landing Systems Analysis Study: Phase 1 Report (2010)

Sostaric, Ronald R. ; Shidner, Jeremy D. ; DwyerCianciolo, Alicia M. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: NASA senior management commissioned the Entry, Descent and Landing Systems Analysis (EDL-SA) Study in 2008 to identify and roadmap the Entry, Descent and Landing (EDL) technology investments that the agency needed to make in order to successfully land large payloads at Mars for both robotic and human-scale missions. This paper summarizes the motivation, approach and top-level results from Year 1 of the study, which focused on landing 10-50 mt on Mars, but also included a trade study of the best advanced parachute design for increasing the landed payloads within the EDL architecture of the Mars Science Laboratory (MSL) mission

Keywords: Systems Analysis and Operations Research

Type: NASA/TM-2010-216720 , L-19869 , NF1676L-10635

Format: text

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Development of Supersonic Retro-Propulsion for Future Mars Entry, Descent, and Landing Systems (2010)

Trumble, Kerry A. ; Edquist, Karl T. ; Shidner, Jeremy D. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Recent studies have concluded that Viking-era entry system technologies are reaching their practical limits and must be succeeded by new methods capable of delivering large payloads (greater than 10 metric tons) required for human exploration of Mars. One such technology, termed Supersonic Retro-Propulsion, has been proposed as an enabling deceleration technique. However, in order to be considered for future NASA flight projects, this technology will require significant maturation beyond its current state. This paper proposes a roadmap for advancing the component technologies to a point where Supersonic Retro-Propulsion can be reliably used on future Mars missions to land much larger payloads than are currently possible using Viking-based systems. The development roadmap includes technology gates that are achieved through testing and/or analysis, culminating with subscale flight tests in Earth atmosphere that demonstrate stable and controlled flight. The component technologies requiring advancement include large engines capable of throttling, computational models for entry vehicle aerodynamic/propulsive force and moment interactions, aerothermodynamic environments modeling, entry vehicle stability and control methods, integrated systems engineering and analyses, and high-fidelity six degree-of-freedom trajectory simulations. Quantifiable metrics are also proposed as a means to gage the technical progress of Supersonic Retro-Propulsion. Finally, an aggressive schedule is proposed for advancing the technology through sub-scale flight tests at Earth by 2016.

Keywords: Lunar and Planetary Science and Exploration

Type: AIAA-2010-5046 , NF-1676L-10212 , 10th AIAA/ASME Joint Thermophysics and Heat Transfer Conference; Jun 28, 2010 - Jul 01, 2010; Chicago, IL; United States

Format: application/pdf

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