Proposed SLS and Orion Missions

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The SLS/Orion program is NASA's new program for beyond Low-Earth Orbit spaceflight. There are a number of notional, proposed missions for the program, none of which are confirmed. Some of the currently proposed NASA Design Reference Missions (DRM) and others include:[1][2][3][4]

Artist's concept of an astronaut performing a tethering asteroid capture maneuver at a near-Earth object (NEO). The Space Exploration Vehicle is close by, with the Orion Multi-Purpose Crew Vehicle (MPCV) docked to the Deep Space Habitat in the background.

Unmanned missions

  • Uranus orbiter and probe, SLS has been proposed by Boeing as a launch vehicle for a Uranian probe. The rocket would "Deliver a small payload into orbit around Uranus and a shallow probe into the planet’s atmosphere." The mission would study the Uranian atmosphere, magnetic and thermal characteristics, gravitational harmonics as well as do flybys of Uranian moons.[5][6]
  • Titan Saturn System Mission, SLS has been proposed as a launch vehicle for a probe to Saturn and its moons.[7]
    Artist's rendering of the Deep Space Habitat
One section of the Skylab II Habitat would be made from the SLS Block 2 upper-stage hydrogen tank, similar to but larger than Skylab. A unique use for the SLS as no other vehicle is presently being designed with an 8-meter-diameter upper stage tank.
Artist's rendering of the proposed Mars Transfer Vehicle (MTV) "Searcher" that would incorporate NTR propulsion and inflatable habitat technology. A crewed Orion MPCV is docked on the right.

Cislunar missions

  • Deep Space Habitat (DSH), NASA's planned usage of spare ISS hardware, experience, and modules for future missions to asteroids, Earth-Moon Lagrangian point and Mars.[8]
  • Exploration Mission 3 is scheduled to be the second crewed mission of NASA's Orion on the Space Launch System.[9] NASA had previously planned for this mission to rendezvous with a captured asteroid boulder in cislunar space, however which mission this will be on is unknown.[10][11]
  • EM-4 and EM-5 are notional cislunar missions similar to EM-3.
  • BEO Orion missions
    • 2033 Forward Work Martian Moon Phobos/Deimos, a crewed flexible path mission to one of the Martian moons. It would include 40 days in the vicinity of Mars and a return Venus flyby.
    • 2037-2039 Forward Work Mars Landing, a crewed mission, with four to six astronauts,[12] to a semi-permanent habitat for at least 540 days on the surface of the red planet in 2033 or 2045. The mission would include in-orbit assembly, with the launch of seven SLS Block 2 heavy-lift vehicles (HLVs). The seven HLV payloads, three of which would contain nuclear propulsion modules, would be assembled in LEO into three separate vehicles for the journey to Mars; one cargo In-Situ Resource Utilization Mars Lander Vehicle (MLV) created from two HLV payloads, one Habitat MLV created from two HLV payloads and a crewed Mars Transfer Vehicle (MTV), known as "Copernicus", assembled from three HLV payloads launched a number of months later. Nuclear Thermal Rocket engines such as the Pewee of Project Rover were selected in the Mars Design Reference Architecture (DRA) study as they met mission requirements being the preferred propulsion option because it uses proven technology, has higher performance, lower launch mass, creates a versatile vehicle design, offers simple assembly, and has growth potential. Ion propulsion was also an alternative option, in the case NTRs were not available. [13][1][14]
  • Other proposed missions
    • 2024 Single Shot MSR on SLS, a crewed flight with a telerobotic Mars Sample Return (MSR) mission proposed by NASA's Mars Program Planning Group. The time frame suggests SLS-5, a 105 t rocket to deliver an Orion capsule, SEP robotic vehicle, and Mars Ascent Vehicle (MAV). "Sample canister could be captured, inspected, encased and retrieved tele-robotically. Robot brings sample back and rendezvous with a crew vehicle." The mission may also include a "Possible Mars SEP (Solar Electric Power/Propulsion) Orbiter".[15]
    • Potential sample return missions to Europa and Enceladus have also been noted.[16]


References

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  6. http://www.boeing.com/assets/pdf/defense-space/space/sls/docs/sls_mission_booklet_jan_2014.pdf
  7. https://www.nasa.gov/sites/default/files/files/Creech_SLS_Deep_Space.pdf
  8. NASA's Deep Space Habitat
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  13. https://www.nasaspaceflight.com/2015/09/nasa-considers-sls-launch-sequence-mars-missions-2030s/
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  16. http://www.nasaspaceflight.com/2012/11/nasa-payload-fairings-options-multi-mission-sls-capability/

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