不良研究所

Students Design Greenhouse for Mars

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Greenhouse on Mars
NASA rendering shows a future Mars base with a greenhouse attached. The “ice home” domes are made of cells filled with frozen water. In this year’s NASA BIG Idea Challenge, five teams including students from 不良研究所 were invited to develop a comprehensive plan to build such a greenhouse to support four astronauts on a two-year mission. (National Institute of Aerospace).

A student team from the 不良研究所 Space and Satellite Systems club was one of five university teams invited to present their plans for a Mars greenhouse at the NASA Langley Research Center last Tuesday, April 23. 

鈥淲e all had an amazing experience learning from other teams鈥 ideas and interacting with professional engineers as well as fellow students,鈥 said team member Lucas Brown, a freshman in aerospace engineering. 

The 不良研究所 students entered the Martian Agricultural and Plant Sciences (MAPS) project for this year鈥檚 BIG Idea Challenge, organized by the National Institute of Aerospace in collaboration with NASA. Their goal: to design a greenhouse to support four astronauts during a two-year stay on Mars. The design needed to relate to the 鈥淢ars Ice Home鈥 concept, an inflatable structure that would arrive on Mars before the crew and be partly assembled automatically. The walls of the ice home and greenhouse would be filled with water, frozen solid in Martian conditions, for structure and protection from radiation. 

Dartmouth College placed first among the five finalists with MIT taking second place, NASA announced Wednesday. Unlike most of the other competitors, the 不良研究所 team was made up entirely of undergraduates, many of them freshmen and sophomores.

Developing the proposal took the team in a wide variety of directions, from soil chemistry and irrigation to interplanetary law. 

鈥淲e鈥檙e all engineers but we鈥檙e all going well outside our scope,鈥 said team lead Duha Bader, a sophomore majoring in mechanical and aerospace engineering. 

鈥淚t鈥檚 cool that it鈥檚 an intersection of agriculture and engineering 鈥 I never thought I would be studying irrigation systems,鈥 Brown said.

The 不良研究所 proposal made use of Martian soil for growing plants, while the other competitors used hydroponic systems. The team assessed the pros and cons of both approaches and found that while hydroponics might be easier to set up, a soil-based greenhouse would be more resilient and have other long-term benefits for the mission beyond providing fresh food.

鈥淭here is stress relief in growing plants, it has recreational and mental benefits,鈥 said Journey Byland, sophomore in aerospace engineering, who designed the soil-processing system. 

Martian soil would be collected, sterilized with an electron beam to remove any Martian microbes 鈥 just in case they exist 鈥 and treated with water to remove perchlorates, toxic chemicals common in Martian dirt. 

Growing soybeans mixed with nitrogen-fixing bacteria would enrich the soil. Plant waste would be burnt to ash and put back into the soil; earthworms (from Earth) would help mix the soil and keep it healthy. 

The team considered, but rejected, using human waste to enrich the soil like fictional astronaut Mark Watney did in the novel The Martian by Andy Weir. The potential health problems are too complicated with a multiperson crew, they said. 

A 1967 United Nations treaty calls on member states to avoid contamination of other planets with Earth microbes, or bringing alien microbes into the Earth environment. The agreements and NASA policies stemming from the 鈥淥uter Space Treaty鈥 mean that all the Martian soil coming into the greenhouse has to be sterilized and that at the end of the mission, the greenhouse鈥檚 plants must all be destroyed and thoroughly sterilized. 

Winning competitors are eligible for NASA summer internships. 

Additional team members include: Audrey Chamberlin, freshman in aerospace engineering; Isabella Elliot, freshman in aerospace engineering; Jackson Liao, sophomore in aerospace engineering; Cory George, senior in aerospace engineering; and Nancy Juarez, sophomore in international agricultural development. Professor Stephen K. Robinson, chair of the Department of Mechanical and Aerospace Engineering and a former astronaut, was faculty advisor to the team. 

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Andy Fell, News and Media Relations, 530-752-4533, ahfell@ucdavis.edu

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