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Design of a direct nuclear propulsion system for a resupply mission to Phobos (1989)

Martinez, R. ; Frymire, R.

In: CASI

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Publication Date: 2017-03-17

Description: For a long-term mission in space, a propulsion system with a high specific impulse and low mass must be designed. The system must also be safe in terms of human lives and must be cost efficient to a degree. The main focus is to design a direct nuclear propulsion system for a resupply mission to Phobos from an orbiting Earth space station and return. The design considered is an annular, packed particle bed nuclear reactor with hydrogen used as the reflector, moderator, coolant, and propellant. The use of hydrogen in all these areas helps reduce the total mass, since the amount of hydrogen required is only that needed for propulsion. The mass of hydrogen required for propulsion is reduced by using a direct nuclear propulsion system with a high specific impulse relative to a hydrogen oxygen system. Certain calculations were not looked at in great detail. This included the aerospace details of the mission. Most of the numbers for this section were found in tables and taken to be correct without extensive calculations. The main objective of the project was to study the thermohydraulic and neutronic aspects of the reactor.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: USRA, NASA(USRA University Advanced Design Program Fifth Annual Summer Conference; p 195-200

Format: text

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Concepts for space maintenance of OTV engines (1986)

Martinez, A. ; Hines, B. D. ; Erickson, C. M.

In: Other Sources

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Publication Date: 2019-06-28

Description: Concepts for space maintainability of the Orbital Transfer Vehicle (OTV) engines are examined. An engine design is developed which is driven by space maintenance requirements and by a failure modes and effects analysis (FMEA). Modularity within the engine is shown to offer cost benefits and improved space maintenance capabilities. Space-operable disconnects are conceptualized for both engine change-out and for module replacement. A preliminary space maintenance plan is developed around a controls and condition monitoring system using advanced sensors, controls, and condition monitoring concepts.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: Johns Hopkins Univ., The 1986 JANNAF Propulsion Meeting, Volume 1; p 99-110

Format: text

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Orbit Transfer Rocket Engine Technology Program: Advanced engine study, task D.1/D.3 (1986)

Martinez, A. ; Hines, B. ; Erickson, C.

In: CASI

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Publication Date: 2019-06-28

Description: Concepts for space maintainability of OTV engines were examined. An engine design was developed which was driven by space maintenance requirements and by a failure mode and effects (FME) analysis. Modularity within the engine was shown to offer cost benefits and improved space maintenance capabilities. Space operable disconnects were conceptualized for both engine change-out and for module replacement. Through FME mitigation the modules were conceptualized to contain the least reliable and most often replaced engine components. A preliminary space maintenance plan was developed around a controls and condition monitoring system using advanced sensors, controls, and condition monitoring concepts. A complete engine layout was prepared satisfying current vehicle requirements and utilizing projected component advanced technologies. A technology plan for developing the required technology was assembled.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: NASA-CR-175084 , NAS 1.26:175084 , RI/RD86-116

Format: application/pdf

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Orbit transfer rocket engine technology program. Phase 2: Advanced engine study (1987)

Erickson, C. ; Martinez, A. ; Hines, B.

In: CASI

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Publication Date: 2019-06-28

Description: In Phase 2 of the Advanced Engine Study, the Failure Modes and Effects Analysis (FMEA) maintenance-driven engine design, preliminary maintenance plan, and concept for space operable disconnects generated in Phase 1 were further developed. Based on the results of the vehicle contractors Orbit Transfer Vehicle (OTV) Concept Definition and System Analysis Phase A studies, minor revisions to the engine design were made. Additional refinements in the engine design were identified through further engine concept studies. These included an updated engine balance incorporating experimental heat transfer data from the Enhanced Heat Load Thrust Chamber Study and a Rao optimum nozzle contour. The preliminary maintenance plan of Phase 1 was further developed through additional studies. These included a compilation of critical component lives and life limiters and a review of the Space Shuttle Main Engine (SSME) operations and maintenance manual in order to begin outlining the overall maintenance procedures for the Orbit Transfer Vehicle Engine and identifying technology requirements for streamlining space-based operations. Phase 2 efforts also provided further definition to the advanced fluid coupling devices including the selection and preliminary design of a preferred concept and a preliminary test plan for its further development.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: NASA-CR-179602 , NAS 1.26:179602 , RI/RD-87-126

Format: application/pdf

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