The removal and destruction of a tri-phenyl methane dye, Acid Violet 17 (AV17), from aqueous solution by adsorption and electrochemical regeneration was studied using a graphite intercalation compound (GIC) adsorbent. It was demonstrated that the adsorbent could be regenerated by anodic oxidation of the adsorbed dye in a simple electrochemical cell. The GIC adsorbent recovered its initial adsorption capacity after 40 to 60 min of treatment at a current density of 10 mA cm-2, corresponding to a charge of 12 to 18 C g-1 of adsorbent. The charge passed is consistent with that expected for mineralisation of the dye, suggesting that the dye was removed and destroyed with high charge efficiency. The energy cost of the regeneration was found to be around 120 J per g of adsorbent regenerated or 115 J per mg of the AV17 dye removed and destroyed. A model describing the process of wastewater treatment by multiple cycles of adsorption and electrochemical regeneration, based on adsorption isotherm data, has been deve-loped and validated. It was found that relatively modest improvements in the adsorption capacity of the adsorbent material could significantly improve the process performance.
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机译:使用石墨插层化合物(GIC)吸附剂研究了通过吸附和电化学再生从水溶液中去除和破坏三苯基甲烷染料酸性紫17(AV17)。已经证明,在简单的电化学电池中,吸附剂可以通过吸附染料的阳极氧化来再生。 GIC吸附剂经过40至60分钟的处理后,在10 mA cm-2的电流密度下恢复了其初始吸附能力,这相当于吸附剂电荷为12至18 C g-1。通过的电荷与染料矿化的预期电荷一致,表明该染料以高电荷效率被去除和破坏。发现再生的能量成本为每克再生的吸附剂约120 J,或每毫克被去除和破坏的AV17染料约115J。已开发并验证了基于吸附等温线数据描述多吸附和电化学再生循环的废水处理过程的模型。已经发现,相对适度地提高吸附剂材料的吸附能力可以显着改善工艺性能。
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