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  • 副教授
  • 硕士生导师
  • 教师拼音名称:Gong Miao
  • 入职时间:2017-01-11
  • 所在单位:土木与水利工程学院 市政工程系
  • 学历:博士研究生毕业
  • 办公地点:土木楼419
  • 性别:
  • 学位:工学博士学位
  • 在职信息:在职
  • 毕业院校:河海大学
  • 学科:环境工程
    市政工程
论文成果
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Partial oxidation of phenolic wastewater using NaOH and Ni addition for hydrogen production and phenolics degradation in supercritical water
  • DOI码:10.1016/j.seppur.2021.118685
  • 发表刊物:Separation and Purification Technology
  • 摘要:Phenolic wastewater is a challenge for traditional microbial treatment because of complex pollutant constituents and high concentration of aromatic hydrocarbons. Using H2O2 as oxidant, partial oxidation of phenolic wastewater using NaOH and Ni addition for hydrogen production and phenolics degradation in supercritical water was explored. It was found that higher oxygen ratio was advantageous for phenolics and other organic pollutants converting to gaseous products from supercritical water partial oxidation without any catalyst addition, but hydrogen production peaked at 0.5 oxygen ratio. Hydrogen gasification efficiency were raised to 75.68% within 0.5 oxygen ratio and 3.0% NaOH addition. Although separate Ni catalyst effectively enhanced the production of the gasifiable intermediate, hydrogen gasification efficiency appeared to a balance due to the enhancement of hydrogenation and methanation reactions. Both organic pollutants removal and hydrogen production enhancement were significantly improved under the combined NaOH-Ni catalyst, 85.24% TOC removal and 86.39% hydrogen gasification efficiency achieved within 1.0 NaOH + 2.0 Ni catalyst. There was very little cyclic compounds detected in liquid phase from combined NaOH-Ni catalytic partial oxidation, compared with individual addition. S, O and Si elements deposited in the surface of Ni catalyst, which have some negative effect on reuse. The positive effect of combined NaOH-Ni catalyst on organic pollutants removal and hydrogen production enhancement was demonstrated, which provided novel results and information that help to solve the problems in the process of toxic and high concentration organic wastewater treatment and facilitate the engineering application of supercritical water partial oxidation technology in the future.
  • 卷号:268
  • 期号:0
  • 页面范围:118685
  • 是否译文:
  • 发表时间:2021-04-01
  • 收录刊物:SCI
  • 发布期刊链接:https://www.sciencedirect.com/science/article/pii/S138358662100397X