Research on a harmless treatment method for oily sludge in coal chemical wastewater and the pollutant transformation mechanism of oily sludge during the treatment process.

Journal of hazardous materials Pub Date : 2024-10-05 Epub Date: 2024-08-22 DOI:10.1016/j.jhazmat.2024.135568
Qian Ge, Yongjun Liu, Pan Liu, Zhuangzhuang Yang, Lu Yang, Zhe Liu, Zhihua Li
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Abstract

This study developed an ultrasound synergistic subcritical hydrothermal treatment method (U-SHT) to address the challenges posed by the high oil and water content, complex composition, and hazardous nature of oily sludge (OS) generated during the pretreatment of coal chemical wastewater. The study investigated the efficiency of this method for the harmless disposal and resource recovery of OS, and the migration-transformation mechanism of hazardous organic pollutants in OS. The findings revealed that U-SHT achieved a removal efficiency of chemical oxygen demand in OS of 91.16 %, an oil resource recovery efficiency of 96.60 %, and a residual oil rate of 0.28 %, meeting API emission standards. Further research indicated that the solubilizing effect of the surfactant on the oil enhanced the demulsifying effect of ultrasonic cavitation on the emulsified structure of OS, enabling ultrasound to efficiently release and disperse pollutants within OS. This promoted the decomposition and transformation of pollutants under subcritical hydrothermal conditions, with synergistic removal efficiencies for typical pollutants such as long-chain alkanes, polycyclic aromatic hydrocarbons, and phenols reaching 96.61 %, 97.63 %, and 97.76 %, respectively. Economic evaluation indicated that the cost of OS treatment was $29.66/m3, significantly lower than existing methods, demonstrating promising practical application prospects.

煤化工废水中含油污泥无害化处理方法及处理过程中含油污泥污染物转化机理研究。
针对煤化工废水预处理过程中产生的含油污泥(OS)油水含量高、成分复杂、危害性大等难题,本研究开发了一种超声协同亚临界水热处理方法(U-SHT)。研究考察了该方法在含油污泥无害化处置和资源化回收方面的效率,以及含油污泥中有害有机污染物的迁移转化机理。研究结果表明,U-SHT 对操作系统中化学需氧量的去除率为 91.16%,油资源回收率为 96.60%,残油率为 0.28%,符合 API 排放标准。进一步的研究表明,表面活性剂对油的增溶作用增强了超声波空化对操作系统乳化结构的破乳化作用,使超声波能够有效地释放和分散操作系统中的污染物。这促进了污染物在亚临界水热条件下的分解和转化,对长链烷烃、多环芳烃和酚类等典型污染物的协同去除率分别达到 96.61%、97.63% 和 97.76%。经济评估表明,OS 的处理成本为 29.66 美元/立方米,大大低于现有方法,显示出良好的实际应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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