| Literature DB >> 28361400 |
Kunlun Yang1, Yang Jin1, Qinyan Yue2, Pin Zhao1, Yuan Gao1, Suqing Wu3, Baoyu Gao4.
Abstract
Application of modified sintering ferric-carbon ceramics (SFC) and sintering-free ferric-carbon ceramics (SFFC) based on coal ash and scrap iron for pretreatment of tetracycline (TET) wastewater was investigated in this article. Physical property, morphological character, toxic metal leaching content, and crystal component were studied to explore the application possibility of novel ceramics in micro-electrolysis reactors. The influences of operating conditions including influent pH, hydraulic retention time (HRT), and air-water ratio (A/W) on the removal of tetracycline were studied. The results showed that SFC and SFFC were suitable for application in micro-electrolysis reactors. The optimum conditions of SFC reactor were pH of 3, HRT of 7 h, and A/W of 10. For SFFC reactor, the optimum conditions were pH of 2, HRT of 7 h, and A/W of 15. In general, the TET removal efficiency of SFC reactor was better than that of SFFC reactor. However, the harden resistance of SFFC was better than that of SFC. Furthermore, the biodegradability of TET wastewater was improved greatly after micro-electrolysis pretreatment for both SFC and SFFC reactors.Entities:
Keywords: Coal ash; Ferric-carbon micro-electrolysis; Optimum conditions; Sintering ferric-carbon ceramics; Sintering-free ferric-carbon ceramics; Tetracycline
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Year: 2017 PMID: 28361400 DOI: 10.1007/s11356-017-8841-8
Source DB: PubMed Journal: Environ Sci Pollut Res Int ISSN: 0944-1344 Impact factor: 4.223