Release Time:2019-03-13  Hits:

Indexed by: Journal Article

Date of Publication: 2019-01-24

Journal: FRONTIERS IN CHEMISTRY

Included Journals: Scopus、PubMed、SCIE

Volume: 7

Issue: JAN

Page Number: 19

ISSN: 2296-2646

Key Words: microbial electrochemical systems; perchlorate removal; Fe/C; cathode; coulombic efficiency

Abstract: Perchlorate removal was tested in the cathode chamber of microbial electrochemical systems (MESs). Dual-chambers MESs were constructed and operated in batch mode with four kinds of cathode materials including Fe/C particles (Fe/C), zero valent iron particles (ZVI), blank carbon felt (CF), and active carbon (AC). Without external energy supply or perchlorate-reducing microbial pre-enrichment, perchlorate (ClO4-) removal could be achieved in the cathode chambers of MESs at different efficiencies. The highest CIO4- removal rates in these reactors were 18.96 (Fe/C, 100 Omega, 2 days), 15.84 (ZVI,100 Omega, 2 days), 14.37 (CF, 100 Omega, 3 days), and 19.78 mg/L/day (AC, 100 Omega, 2 days). ClO4- degradation products were mainly Cl- and ClO3-, and the total chlorine in the products was lower than the theoretical input. The non-conservation of the total chlorine may be caused by the adsorption and co-precipitation related to the electrode materials. Coulombs and coulombic efficiency calculation showed that electron provided by MESs was partially responsible for ClO4- reduction, for the Fe/C cathode reactors, about a quarter of electron was provided by MESs.