Electrocoagulation Treatment for Reverse Electrodialysis Wastewater from Petroleum Refinery

Day 3 Thu, October 31, 2019 Pub Date : 2019-10-28 DOI:10.4043/29911-ms

F. Gonçalves, Dhayannie Hellen Galdino Duarte Tocafundo, André L. Santos, Elbert M. Nigri, S. Rocha

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引用次数: 2

Abstract

The present study investigated an evaluation efficiency of electrocoagulation (EC) for the pretreatment of a saline concentrated effluent from the reverse electrodialysis (RED-C) stage from an oil refinery, aiming at water reuse in the industrial process. In this approach, an electrocoagulation system with 1 L capacity was set up for batch treatment using aluminum electrodes. Initially, experiments with a semi-synthetic RED-C effluent were assessed for contaminants removal using fixed current density of 8.30 mA/cm2 and 1 cm distance between electrodes. The influence of initial pH (5 and 7), controlled temperature (20, 30 and 40°C) and operation time (60 and 120 min) on removal efficiency was investigated and solid residue were measured. The results showed that the optimum conditions were at pH 7 and 20-30°C with removal rates around 70%, 57%, 10% and 44% for Ca, Sr, Na and COD, respectively. Thereafter, experiments were conducted with a real RED-C using the best condition founded in preliminary tests, this time applying a current density of 5 and 10 mA/cm2 and 0.5 cm distance at room temperature (approximately 23°C). Regarding the tests with real RED-C, for both current densities the removals were greater due to decrease in distance between electrodes and larger temperature range that improved electrocoagulation. In general, the use of current density of 10 mA/cm2 and reduction of inter-electrode distance increased EC efficiency which exhibited removal rates of 88%, 77%, 26% and 24% for Ca, Sr, Na and COD, respectively. Although, it was observed a decrease in COD removal from real RED-C due to the addition of inorganic ions in the semisynthetic effluent that precipitated as salts, removing more organic as a coadjuvant compound. The solid slugde production for this same condition were 5.65 g/L.

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炼油厂反电渗析废水的电絮凝处理

以某炼油厂反电渗析(RED-C)阶段产生的含盐浓废水为研究对象，研究了电絮凝预处理(EC)的效率评价，以实现工业废水的回用。在这种方法中，建立了一个容量为1l的电凝系统，使用铝电极进行批量处理。最初，使用固定电流密度为8.30 mA/cm2，电极之间距离为1 cm的半合成RED-C废水进行实验，评估其去除污染物的能力。考察了初始pH(5和7)、控制温度(20、30和40℃)和操作时间(60和120 min)对去除率的影响，并测定了固体残渣。结果表明，在pH为7、20 ~ 30℃的条件下，对Ca、Sr、Na和COD的去除率分别为70%、57%、10%和44%。之后，在初步测试中建立的最佳条件下，使用真正的RED-C进行实验，这次在室温(约23°C)下施加5和10 mA/cm2的电流密度和0.5 cm的距离。在实际的RED-C测试中，两种电流密度下的去除量都较大，这是由于电极之间距离的减小和提高电凝的温度范围。总的来说，使用10 mA/cm2的电流密度和减少电极间距离可提高EC效率，对Ca、Sr、Na和COD的去除率分别为88%、77%、26%和24%。虽然，观察到从真正的RED-C中去除COD的减少是由于在半合成出水中添加无机离子沉淀为盐，去除更多的有机作为辅助化合物。在相同条件下，固体污泥产量为5.65 g/L。

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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Day 3 Thu, October 31, 2019

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