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Space station integrated propulsion and fluid systems study. Space station program fluid management systems databook (1988)

Wilson, S. ; Lydon, M. ; Bicknell, B. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Commonality and integration of propulsion and fluid systems associated with the Space Station elements are being evaluated. The Space Station elements consist of the core station, which includes habitation and laboratory modules, nodes, airlocks, and trusswork; and associated vehicles, platforms, experiments, and payloads. The program is being performed as two discrete tasks. Task 1 investigated the components of the Space Station architecture to determine the feasibility and practicality of commonality and integration among the various propulsion elements. This task was completed. Task 2 is examining integration and commonality among fluid systems which were identified by the Phase B Space Station contractors as being part of the initial operating capability (IOC) and growth Space Station architectures. Requirements and descriptions for reference fluid systems were compiled from Space Station documentation and other sources. The fluid systems being examined are: an experiment gas supply system, an oxygen/hydrogen supply system, an integrated water system, the integrated nitrogen system, and the integrated waste fluids system. Definitions and descriptions of alternate systems were developed, along with analyses and discussions of their benefits and detriments. This databook includes fluid systems descriptions, requirements, schematic diagrams, component lists, and discussions of the fluid systems. In addition, cost comparison are used in some cases to determine the optimum system for a specific task.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-CR-183583 , NAS 1.26:183583 , MCR-88-557

Format: application/pdf

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Space station integrated propulsion and fluid systems study (1987)

Bicknell, B. ; Rose, L. ; Bergman, D. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: This Databook addresses the integration of fluid systems of the Space Station program. It includes a catalog of components required for the Space Station elements fluid systems and information on potential hardware commonality. The components catalog is in four parts. The first part lists the components defined for all the fluid systems identified in EP 2.1, Space Station Program Fluid Systems Configuration Databook. The components are cross-referenced in three sections. Section 2.1 lists the components by the fluid system in which they are used. Section 2.2 lists the components by type. Section 2.3 lists by the type of fluid media handled by the component. The next part of the catalog provides a description of the individual component. This section (2.4) is made up of data retrieved from Martin Marietta Denver Aerospace component data base. The third part is an assessment of propulsion hardware technology requirements. Section 2.5 lists components identified during the study as requiring development prior to flight qualification. Finally, Section 2.6 presents the results of the evaluation of commonality between components. The specific requirements of each component have been reviewed and duplication eliminated.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-CR-179393 , NAS 1.26:179393 , MCR-87-580

Format: application/pdf

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Space station integrated propulsion and fluid systems study (1988)

Shepard, D. ; Rossier, R. ; Bicknell, B. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The program study was performed in two tasks: Task 1 addressed propulsion systems and Task 2 addressed all fluid systems associated with the Space Station elements, which also included propulsion and pressurant systems. Program results indicated a substantial reduction in life cycle costs through integrating the oxygen/hydrogen propulsion system with the environmental control and life support system, and through supplying nitrogen in a cryogenic gaseous supercritical or subcritical liquid state. A water sensitivity analysis showed that increasing the food water content would substantially increase the amount of water available for propulsion use and in all cases, the implementation of the BOSCH CO2 reduction process would reduce overall life cycle costs to the station and minimize risk. An investigation of fluid systems and associated requirements revealed a delicate balance between the individual propulsion and fluid systems across work packages and a strong interdependence between all other fluid systems.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-CR-183509 , NAS 1.26:183509 , MCR-88-539

Format: application/pdf

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