Enhanced removal of petroleum pollutants from petrochemical wastewater using ferric sulfate nano-coagulants: experimental evaluation and modeling

IF 3.674 4区工程技术 Q1 Engineering

Applied Nanoscience Pub Date : 2025-06-09 DOI:10.1007/s13204-025-03100-2

Farshad Farahbod

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Abstract

Oil pollution in wastewater poses a significant environmental threat due to its toxicity to aquatic ecosystems and potential risks to human health. This study explores the use of ferric sulfate nanoparticles as an advanced coagulant for treating effluents from the Shiraz Petrochemical Complex. A two-stage reactor system was employed to optimize treatment conditions, focusing on mixing speed, coagulant dosage, and the use of coagulant aids (NaOH and Na₂CO₃). Optimal performance was observed at a mixing speed of 120 rpm in the primary reactor, reducing chemical and biological oxygen demand (COD and BOD) to 19 mg/L and 6.5 mg/L, respectively. Removal efficiencies for petroleum hydrocarbons, oily compounds, and aromatic substances improved with increased coagulant dosage, achieving up to 62.8%, 4%, and 5.2% improvement, respectively. Zeta potential analysis revealed decreased electrostatic repulsion at higher dosages, with values reaching − 13.4 mV. A second-order polynomial regression model demonstrated excellent predictive accuracy (R² = 0.9999), validating the experimental findings. These results underscore the potential of nano-enhanced coagulation for industrial wastewater treatment.

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硫酸铁纳米混凝剂对石化废水中石油污染物的强化去除：实验评价与模拟

污水中油类污染对水生生态系统的毒性和对人类健康的潜在风险对环境构成了重大威胁。本研究探讨了使用硫酸铁纳米颗粒作为高级混凝剂处理设拉子石化综合厂的废水。采用两级反应器系统优化处理条件，重点研究混合速度、混凝剂用量和助凝剂（NaOH和Na₂CO₃）的使用。在主反应器中以120转/分的搅拌速度混合时，化学需氧量（COD）和生物需氧量（BOD）分别降至19 mg/L和6.5 mg/L。随着混凝剂用量的增加，对石油烃、油性化合物和芳香族物质的去除率分别提高了62.8%、4%和5.2%。Zeta电位分析显示，在较高剂量下，静电斥力降低，达到- 13.4 mV。二阶多项式回归模型具有较好的预测精度（R2 = 0.9999），验证了实验结果。这些结果强调了纳米强化混凝在工业废水处理中的潜力。

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来源期刊

Applied Nanoscience Materials Science-Materials Science (miscellaneous)

CiteScore

7.10

自引率

0.00%

发文量

430

期刊介绍： Applied Nanoscience is a hybrid journal that publishes original articles about state of the art nanoscience and the application of emerging nanotechnologies to areas fundamental to building technologically advanced and sustainable civilization, including areas as diverse as water science, advanced materials, energy, electronics, environmental science and medicine. The journal accepts original and review articles as well as book reviews for publication. All the manuscripts are single-blind peer-reviewed for scientific quality and acceptance.