Just interesting...MIT news
The non-profit company Mars One plans to establish the first human settlement on Mars by 2025. Pictured is an artist's rendering of a series of habitats. Solar panels (in the foreground), would supply the colony's electricity, while a system to extract water from the soil (in the background) would supply drinking water.
Courtesy of Bryan Versteeg/Mars One
Mars One (and done?)
MIT team independently assesses the technical feasibility of the proposed Mars One mission.
Jennifer Chu | MIT News Office
October 14, 2014
In 2012, the “Mars One” project, led by a Dutch nonprofit, announced plans to establish the first human colony on the Red Planet by 2025. The mission would initially send four astronauts on a one-way trip to Mars, where they would spend the rest of their lives building the first permanent human settlement.
It’s a bold vision — particularly since Mars One claims that the entire mission can be built upon technologies that already exist. As its website states, establishing humans on Mars would be “the next giant leap for mankind.”
But engineers at MIT say the project may have to take a step back, at least to reconsider the mission’s technical feasibility.
The MIT researchers developed a detailed settlement-analysis tool to assess the feasibility of the Mars One mission, and found that new technologies will be needed to keep humans alive on Mars.
For example, if all food is obtained from locally grown crops, as Mars One envisions, the vegetation would produce unsafe levels of oxygen, which would set off a series of events that would eventually cause human inhabitants to suffocate. To avoid this scenario, a system to remove excess oxygen would have to be implemented — a technology that has not yet been developed for use in space. ...
... Olivier de Weck, an MIT professor of aeronautics and astronautics and engineering systems, says the prospect of building a human settlement on Mars is an exciting one. To make this goal a reality, however, will require innovations in a number of technologies and a rigorous systems perspective, he says.
“We’re not saying, black and white, Mars One is infeasible,” de Weck says. “But we do think it’s not really feasible under the assumptions they’ve made. We’re pointing to technologies that could be helpful to invest in with high priority, to move them along the feasibility path.”
“One of the great insights we were able to get was just how hard it is to pull this [mission] off,” says graduate student Sydney Do. “There are just so many unknowns. And to give anyone confidence that they’re going to get there and stay alive — there’s still a lot of work that needs to be done.”
Do and de Weck presented their analysis this month at the International Astronautical Congress in Toronto. Co-authors include MIT graduate students Koki Ho, Andrew Owens, and Samuel Schreiner.
Read more at: http://newsoffice.mit.edu/2014/technica ... s-one-1014
Margarita
PS. http://www.mars-one.com/mission
