A Numerical Study of the Efficiency of the Sono Galvano-Fenton Process as a Tertiary Treatment Technique for the Wastewater Reuse in Agriculture

The Eurasia Proceedings of Science Technology Engineering and Mathematics Pub Date : 2023-12-25 DOI:10.55549/epstem.1406767

K. Kerboua

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Abstract

In the present study, the Sono-Galvano-Fenton process is studied numerically as a tertiary treatment process for treated wastewater reuse in irrigation, with in situ generation of the Fenton’s reagent and catalyst, i.e., H2O2 and Fe2+. The sonochemical pathway is examined as a source of hydrogen peroxide under the pre-optimized condition of acoustic frequency, 200 kHz. The macroscopic model accounting for the performance of the single acoustic cavitation bubble and the bubble population density is combined with the Fe/Cu galvanic cell operating in acidic conditions (pH 3), following a cumulative and instantaneous production approach in terms of Fenton’s reagent. The combination is optimized based on the rate of hydroxyl radicals generated by the Galvano-Fenton process, as a non-selective powerful oxidant against recalcitrant pollutants, then considering the synergetic effect of the hybrid process in terms of HO● pumped sonochemically and via the Fenton based pathway, treated using simulations of the isolated processes then their combined configuration following both aforementioned approaches.

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将 Sono Galvano-Fenton 工艺作为农业废水回用三级处理技术的效率数值研究

本研究将声纳-加尔凡诺-芬顿工艺作为灌溉废水处理回用的三级处理工艺进行数值研究，原位生成芬顿试剂和催化剂，即 H2O2 和 Fe2+。在预先优化的 200 kHz 声波频率条件下，将声波化学途径作为过氧化氢的来源进行了研究。考虑到单个声波空化气泡的性能和气泡群密度的宏观模型与在酸性条件（pH 值为 3）下运行的铁/铜电解池相结合，采用了累积和瞬时生产芬顿试剂的方法。根据 Galvano-Fenton 过程产生羟基自由基的速率对组合进行了优化，羟基自由基是一种针对难降解污染物的非选择性强效氧化剂，然后考虑混合过程的协同效应，即通过声化学泵和基于 Fenton 的途径产生 HO●。

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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来源期刊

The Eurasia Proceedings of Science Technology Engineering and Mathematics

CiteScore

0.20

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0.00%

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