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dc.creatorCmarik, Gregory
dc.creatorKnox, James
dc.date.accessioned2019-06-20T16:21:16Z
dc.date.available2019-06-20T16:21:16Z
dc.date.issued2019-07-07
dc.identifier.otherICES_2019_5
dc.identifier.urihttps://hdl.handle.net/2346/84429
dc.descriptionGregory Cmarik, Jacobs Space Exploration Group, NASA/MSFC/ES62, USA
dc.descriptionJames Knox, Jacobs Space Exploration Group, USA
dc.descriptionICES302: Physio-chemical Life Support- Air Revitalization Systems -Technology and Process Development
dc.descriptionThe 49th International Conference on Environmental Systems was held in Boston, Massachusetts, USA on 07 July 2019 through 11 July 2019.
dc.description.abstractEfforts over the past three years have focused on the study of candidate sorbent materials for use in a 4BMS molecular sieve system. The accumulation of knowledge has been invaluable for further decisions and for reflecting on the conclusions of past decisions. The goal of the next generation CO2 removal system is continuous, failure-free operation for nearly 20,000 hours, but no complex life support system has yet reached this lofty goal. In addition to reliability, CO2 removal performance improvements have been intensively studied. The achievements toward this end include highly detailed isotherm measurements which drive system simulations as well as testing physical design improvements. Looking back on the successes and failures of past systems, correlating data from long-duration tests, and carefully projecting future results are all needed for the success of the next system. This work intends to reveal the path we have taken and illuminate the steps to come for CO2 removal life support with the 4BCO2 flight demonstration.
dc.format.mimetypeapplication/pdf
dc.language.isoengen_US
dc.publisher49th International Conference on Environmental Systems
dc.subjectCO2 removal
dc.subjectCarbon Dioxide
dc.subject4BMS - 4-bed molecular sieve
dc.subjectCDRA
dc.subject4BCO2
dc.subjectsorbent
dc.subjectcharacterization
dc.titleCO2 Removal for the International Space Station – 4-Bed Molecular Sieve Material Selection and System Designen_US
dc.typePresentations


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