We take a look at whether this will be possible when man finally steps foot on the Red Planet
We asked NASA’s Patrick Troutman, a specialist in the future of spaceflight, for his thoughts
Mouse over the icons for more information about the Nautilus-X spacecraft
When it comes to manned missions into deep space there are no shortage of proposals on the drawing board. People have dreamed up spacecraft with various fantastical elements, from futuristic propulsion engines to somewhat ambitious aesthetic designs, but one proposal that warrants a serious glance is Nautilus-X. It’s a spacecraft that builds largely on existing technology to make human exploration of the Solar System a realistic possibility, and at a reasonable price too.
Drawn up by NASA engineers Mark Holderman and Edward Henderson, this deep space vehicle might not be as exciting to look at as some of the other futuristic proposals being touted but its certainly one of the most promising. The full name of the vehicle is theNon-Atmospheric Universal Transport Intended for Lengthy United States Exploration (Nautilus-X), while this type of spacecraft is known as a Multi-Mission Space Exploration Vehicle (MMSEV).
Nautilus-X would be capable of supporting a crew of six for missions lasting from one month to two years. Although it might look like a mini space station, the whole thing is designed to be able to travel throughout the Solar System, be it near the Moon or Mars. Although not capable of descending to the surface of another world itself, it has docking ports to which landing craft can be attached.
The intention of the vehicle is that, once built, it could remain in space for many years with several different crews utilising it. For example, one crew could travel to Nautilus-X in an Orion spacecraft and then take the entire spacecraft to Mars for a mission lasting up to a year. They would then return in Nautilus-X at the conclusion of the mission and leave the spacecraft near Earth orbit, ready and waiting for another crew, while they travel back to the surface of Earth in their Orion capsule.
Such an implementation would allow multiple rotating crews to make use of the spacecraft on a variety of missions. Solar panels would provide the spacecraft with power, while on-board farms could provide astronauts with food. At the outset of a mission, though, it’s likely astronauts would need to bring some supplies with them, perhaps on a separate spacecraft like SpaceX’s Dragon.
Another key feature of Nautilus-X is, as you may have noticed in the illustration above, the centrifuge. It is well documented that prolonged exposure to space can have a debilitating effect on an astronaut’s health, in particular their muscle and bone strength. It is estimated that as much as 2 per cent of bone mass is lost for every month an astronaut is weightless in space, so providing an artificial gravity environment could be essential for long-term exploration missions. The centrifuge on Nautilus-X would provide between 51 to 69% of Earth’s gravity, allowing astronauts to recuperate bone mass they may have lost while on other parts of the spacecraft or outside on a mission. Such a centrifuge had been suggested as an additional module for the International Space Station to test the technology, but unfortunately that now seems to be on hold due to budgetary reasons.
On the subject of money, Nautilus-X carries with it a rather alluring price tag. The brains behind the project estimate it would cost around $3.7 billion (£2.3 billion), not even twice the price of NASA’s Curiosity rover, while development could be completed in just over five years. Such figures are attractive, especially for the money-conscious top dogs at NASA, so there is a chance that after further research this spacecraft may come to fruition.
But on that note, when could we expect to see any work on Nautilus-X begin? At the moment, NASA’s manned exploration funding is tied up in a number of projects, namely Orion, Commercial Crew Development (which includes funding for SpaceX, Boeing and Sierra Nevada Corporation’s upcoming manned vehicles), the ISS and the Space Launch System heavy-lift rocket. The latter would be essential for launching and assembling the various components of this spacecraft in Earth orbit. Whether we will ever see Nautilus-X fly is up for debate, but it’s good to know that NASA has a sound proposal for a deep space exploration vehicle if it ever does decide to go down that route.
Take a look at this next-generation spacecraft that some NASA engineers believe will be capable of multiple trips to the Moon, Mars and other destinations.