STS Derivative Cargo Vehicles for the 1990's decade and beyond
Abstract
Shuttle-derived vehicle options are described in the context of supporting earth-LEO space transportation for the lunar and Mars missions. An evolutionary model is delineated which can provide heavy-lift capabilities for these missions with a system based on STS booster elements. The Shuttle-C unmanned launch system and the Mars heavy-lift launch vehicles (HLLV) are examined as reference vehicles with launch configurations illustrated for lunar and Martian transportation scenarios. The Shuttle-C prelunar vehicle can be modified for lunar transportation as the Shuttle-C Block I which can then be extended to a two-stage HLLV by adding a third stage in the form of a Mars transfer vehicle. The development of a liquid-rocket booster is proposed to replace the STS solid booster for added mission flexibility. The use of shuttle-derived vehicles is concluded to be an effective means for supporting the lunar and Mars initiatives while minimizing near-term costs.
- Publication:
-
IN: Space Congress
- Pub Date:
- 1990
- Bibcode:
- 1990spco.procQ...7S
- Keywords:
-
- Cargo Spacecraft;
- Earth Orbital Environments;
- Mission Planning;
- Payload Delivery (Sts);
- Technological Forecasting;
- Unmanned Spacecraft;
- Cost Reduction;
- Nasa Space Programs;
- Space Exploration;
- Space Station Freedom;
- Launch Vehicles and Space Vehicles