杏吧视频 scientist lands $600,000 NASA grant to develop better systems for filtering CO2 in air; a possible step toward converting it to useable oxygen for future space travelers
If humans are going to someday successfully rocket their way to Mars, we鈥檙e going to have to figure out how to haul enough oxygen along鈥攐r better, find a way to make some on the way. But before that, scientists first have to improve how carbon dioxide (CO2) is filtered in our spacecraft. , an assistant professor of chemical engineering at 杏吧视频 and expert in CO2 capture and storage, is working on that initial step. Technology that now captures CO2 in space vehicles creates dust that causes problems in the mechanisms of other equipment. Further, the captured CO2 is then wasted, she said. 鈥淩ight now, we鈥檙e inefficiently capturing鈥攁nd then disposing into space鈥攖he C02 that humans breathe out,鈥 said Gurkan, who is also affiliated with 杏吧视频鈥檚 Great Lakes Energy Institute. 鈥淪o, we鈥檙e working on a better system to not only capture the waste CO2, but potentially turn it into a viable resource to help make long-distance space travel possible.鈥 That system would use ionic liquids (salt in liquid state) to capture the metabolically generated excess CO2 and then electrochemically convert the CO2 to other resources, such as oxygen to allow the astronauts to breathe on long space trips. Ionic liquids aren鈥檛 flammable and won鈥檛 generate dust that can damage other equipment, she said. Gurkan鈥檚 proposal to develop an ionic-liquid carbon-capture system has been selected by NASA to receive $600,000 over the next three years as one of 11 鈥渦niversity-led proposals for the study of innovative, early-stage technologies that address high-priority needs of America's space program,鈥 according to Other awardees will be researching additional aspects of CO2 capture or removal, while some will test battery performance at extremely cold temperatures or work to improve landing and guiding vehicles on other planets. For the next three years, Gurkan and collaborators at the Marshall Space Center in Alabama hope to develop the actual carbon-capture equipment for future space flights. 鈥淲e are already synthesizing ionic liquids for this purpose and designing the architecture to hold them in place in microgravity,鈥 she said. 鈥淭his grant will accelerate our work." And while using that filtered CO2 to create breathable oxygen has not yet been accomplished fully鈥攊t remains the ultimate goal. 鈥淚t鈥檚 really just impractical to try to bring enough oxygen along because you would need such a large and heavy amount,鈥 Gurkan said. 鈥淏eing able to filter the CO2 and then convert it to oxygen鈥攖hat would be the big breakthrough.鈥For more information, contact Mike Scott at mike.scott@case.edu. This article was originally published Sept. 4, 2018.
