化学
胞外聚合物
废水
氨
环境化学
异养
黄铁矿
污水处理
活性污泥
水处理
制浆造纸工业
环境工程
有机化学
细菌
环境科学
矿物学
生物膜
生物
工程类
遗传学
作者
Chuanfu Zhao,Jianhua Lei,Fei Han,Tong Jiao,Yufei Han,Weizhi Zhou
出处
期刊:Water Research
[Elsevier BV]
日期:2023-10-21
卷期号:247: 120772-120772
被引量:37
标识
DOI:10.1016/j.watres.2023.120772
摘要
Existing conventional biological treatment techniques face numerous limitations in effectively removing total petroleum hydrocarbons (TPHs) and ammonia (NH4+-N) from oilfield-produced water (OPW), highlighting the pressing need for innovative pre-oxidation and biological treatment processes. In this study, a pyrite-activated peroxymonosulfate (PMS)-coupled heterotrophic ammonia assimilation (HAA) system was established to achieve satisfactory system performance for OPW treatment. Pyrite sustained-release Fe2+-activated PMS was used to produce SO4•− and •OH, and 71.0% of TPHs were effectively removed from the oil wastewater. The average TPHs and NH4+-N removal efficiencies in the test group with pre-oxidation were 96.9% and 98.3%, compared to 46.5% and 77.1% in the control group, respectively. The maximum fluorescence intensities of tryptophan protein and aromatic protein in the test group declined by 83.7%. Fourier transform ion cyclotron resonance mass spectrometry revealed that pre-oxidation degraded more long-chain hydrocarbons and aromatic family compound, whereas the HAA process produced more proteins and carbohydrates. Pyrite-PMS promoted the enrichment of ammonia-assimilating bacteria, alleviating the explosive increase in extracellular polymeric substances and reducing sludge settleability. The low cost, efficiency, green chemistry principles, and synergies of this approach make it a powerful solution for practical OPW treatment to reduce environmental impacts and promote sustainable wastewater treatment.
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