Systems and operations - Living with complexity and growth
Abstract
Since the space station concept currently being developed by NASA calls for system updates and additions over a period of at least ten years following launch, attention must be given to the interfaces between station elements. Efforts have begun to develop generic fault detection, isolation, and correction techniques that could simplify on-orbit operations, maintenance and repair. An integrated hydrogen-oxygen system has been identified as the feature promising the greatest reduction in resupply costs. Scavenging excess fuel from the Space Shuttle's internal and external tanks, and using leftover Shuttle payload for fluid tankage, could supply hydrogen and oxygen for consumption in the form of propellants, fuel cell electricity, and life support gases. Advancements in cryogenic fluid management and storage technology are the keys to the design of this integrated system. Attention is given to the Interactive Design and Evaluation of Advanced Spacecraft computer-aided design and analysis system, which allows system engineers to study the integration problems presented by 40 technical modules.
- Publication:
-
Astronautics Aeronautics
- Pub Date:
- March 1983
- Bibcode:
- 1983AsAer..21...53H
- Keywords:
-
- Complex Systems;
- Computer Aided Design;
- Space Stations;
- Spacecraft Design;
- Systems Integration;
- Cryogenic Fluids;
- Failure Analysis;
- Fuel Cells;
- Fuel Consumption;
- Interactive Control;
- Operational Problems;
- Orbital Servicing;
- Space Maintenance;
- Space Shuttle Payloads;
- Systems Engineering;
- Launch Vehicles and Space Vehicles