Electrocoagulation using a Zn anode was applied for the first time to remove the organic load of a liquid effluent. Different operating conditions (pH, current density, distance between electrodes, nature of electrolyte and kind of cathode) were tested with synthetic phenolic wastewater, in order to optimise the process. Both the medium pH and the type of electrolyte that were used greatly affected the efficiency of the system, followed by the influence of the current density and the cathode material, in a lesser extent. The effect of the distance between electrodes was quite negligible. Furthermore, a sequence of fed-batch trials involving the electrodes reuse showed almost constant activity during the operation time. The optimum operating conditions achieved were initial pH of the effluent equal to 3.2, current density of 250 A/m(2), distance between electrodes of 1.0 cm and 1.5 g/L of NaCl. Moreover, the Zn anode/stainless steel cathode pair revealed the most interesting results. These parameters led to 84.2% and 40.3% of total phenolic (TPh) content and chemical oxygen demand (COD) removal, respectively. In addition, the depuration of a filtered real olive mill effluent without NaCl addition achieved the abatement of up to 72.3% of TPh and 20.9% of COD. An energy consumption of 40 kW h/m(3) and 34 kW h/m3 was observed for the treatment of the simulated and the real wastewater, respectively. Furthermore, the ecological impact of the treated effluent was detected by bio-luminescence techniques.
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机译:首次使用锌阳极进行电凝,以去除液体流出物的有机负荷。为了优化工艺,对合成酚醛废水测试了不同的操作条件(pH,电流密度,电极之间的距离,电解质的性质和阴极的种类)。所用的介质pH值和电解质类型都极大地影响了系统的效率,随后在较小程度上影响了电流密度和阴极材料的影响。电极之间距离的影响可以忽略不计。此外,涉及电极再利用的一系列补料分批试验显示出在操作时间内几乎恒定的活性。达到的最佳操作条件是流出液的初始pH等于3.2,电流密度为250 A / m(2),电极之间的距离为1.0 cm和1.5 g / L的NaCl。此外,锌阳极/不锈钢阴极对显示了最有趣的结果。这些参数分别导致总酚(TPh)含量和化学需氧量(COD)去除量的84.2%和40.3%。此外,在不添加NaCl的情况下对经过过滤的真实橄榄磨坊废水进行纯净,可减少高达72.3%的TPh和20.9%的COD。对于模拟废水和实际废水,分别观察到40 kW h / m(3)和34 kW h / m3的能耗。此外,通过生物发光技术检测了处理后废水的生态影响。
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