Manned mars mission enhancements using Pratt and Whitney escort combined propulsion and power system
- United Technologies, Pratt-Whitney, West Palm Beach, Florida 33410 (United States)
The purpose of this paper is to describe the cost implications to manned Mars missions when a nuclear thermal combined propulsion and power unit is used for main propulsion and mission power. The paper uses a series of mission opportunities during the NASA DRM focus period and looks at how a NTR (Nuclear Thermal Rocket) can be used to increase the Mars mission payload delivery capability and mission flexibility across the entire mission spectrum. In propulsive mode, a nuclear reactor is used to heat hot hydrogen, which is expanded through a converging/diverging nozzle to generate thrust. Heat pickup in the nozzle and the radial beryllium reflectors is used to drive the turbomachinery in the ESCORT expander cycle. In electrical mode, the reactor is used to heat a mixture of helium and xenon to drive a closed-loop Brayton cycle in order to generate electrical energy. A Mars transportation system integrated performance methodology was developed to assess the sensitivity to weight, thrust and impulse to the Mars conjunction class mission requirements. Propellant tanks, propulsion system mass, shielding, and Brayton cycle power conversion unit requirements were included in this evaluation. This paper examines how the design characteristics of the ESCORT derivative propulsion and power system affect the mission payload capability and the earth launch vehicle design requirements. The same reactor design is also used for Mars surface power reactor, delivered as payload by the ESCORT derivative powered Mars transfer stage. Trade curves of mission mass and payload are presented.
- OSTI ID:
- 21202498
- Journal Information:
- AIP Conference Proceedings, Journal Name: AIP Conference Proceedings Journal Issue: 1 Vol. 458; ISSN 0094-243X; ISSN APCPCS
- Country of Publication:
- United States
- Language:
- English
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