Bioelectrochemical degradation of urea at platinized boron doped diamond electrodes for bioregenerative systems |
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Authors: | Eduardo Nicolau,Ileana Gonzá lez-Gonzá lez,Michael Flynn,Kai Griebenow,Carlos R. Cabrera |
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Affiliation: | 1. Department of Chemistry and NASA Center for Advanced Nanoscale Materials, University of Puerto Rico, Rio Piedras Campus, PO Box 23346, San Juan, PR 00931-3346, USA;2. NASA Ames Research Center, Bioengineering Branch, Moffet Field, CA 94035, USA |
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Abstract: | The recovery of potable water from space mission wastewater is critical for the life support and environmental health of crew members in long-term missions. NASA estimates reveal that at manned space missions 1.91 kg/person day of urine is produced, with urea and various salts as its main components. In this research we explore the utilization of urease (EC 3.5.1.5, 15,000 U/g) along with a platinized boron doped diamond electrode (Pt-BDD) to degrade urea. Urea is directly degraded to nitrogen by the in situ utilization of the reaction products as a strategy to increase the amount of clean water in future space expeditions. The biochemical reaction of urease produces ammonia and carbon dioxide from urea. Thereafter, ammonia is electrooxidized at the interface of the Pt-BDD producing molecular nitrogen. The herein presented system has been proven to have 20% urea conversion efficiency. This research has potential applications for future long-term space missions since the reaction byproducts could be used for a biomass subsystem (in situ resource recovery), while generating electricity from the same process. |
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Keywords: | Urea Wastewater Bioelectrochemistry Boron-doped diamond Urease Bioreactor |
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