High-Efficiency Solar Desalination Accompanying Electrocatalytic Conversions of Desalted Chloride and Captured Carbon Dioxide

Byeong Ju Kim, Guangxia Piao, Seonghun Kim, So Young Yang, Yiseul Park, Dong Suk Han, Ho Kyong Shon, Michael R. Hoffmann, Hyunwoong Park

Research output: Contribution to journalArticlepeer-review

34 Scopus citations

Abstract

The sustainability of conventional water- and energy-associated systems is being examined in terms of water-energy nexus. This study presents a high-efficiency, off-grid solar desalination system for saline water (salinities 10 and 36 g L-1) that accompanies electrocatalytic oxidations of chloride and, consequently, urine via oxidized chlorine species while concomitantly producing formate from captured CO2. A variable number of desalination cell arrays is placed between a double-layered nanoparticulate titania electrocatalyst (Ti/IrxTa1-xOy/nano-TiO2; denoted as n-TEC) anode and a porous dendrite Bi cathode. A potential bias to the n-TEC and Bi pairs initiates the transport of chloride and sodium ions in the saline water to the anode and cathode cells, respectively, at an ion transport efficiency of ∼100% and a specific energy consumption of ∼1.9 kWh m-3. During the desalination, the n-TEC anode catalyzes the conversion of the transported chloride into reactive chlorine species, which, in turn, mediate the decomposition of urine in the anode cell. Concurrent with the anodic process, formate is continuously produced at a faradic efficiency of >95% from the CO2 captured in the catholyte. When a photovoltaic cell (power conversion efficiency of ∼18%) is coupled to the stack device with five desalination cells, the three independent processes synergistically proceed at a maximum overall solar-to-desalination system efficiency of ∼16% and a maximum solar-to-formate chemical energy conversion efficiency of ∼7%.

Original languageEnglish
Pages (from-to)15320-15328
Number of pages9
JournalACS Sustainable Chemistry and Engineering
Volume7
Issue number18
DOIs
StatePublished - 16 Sep 2019

Keywords

  • CO reduction
  • desalination
  • electrocatalysis
  • reactive chlorine species
  • water-energy nexus

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