用电化学和膜工艺处理番茄酱废水:工艺优化和成本计算

Aliye Şen, C. Akarsu, Z. Bilici, H. Arslan, N. Dizge
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引用次数: 0

摘要

本研究调查了使用电凝(EC)和电氧化(EO)处理番茄酱(TP)生产废水的情况。然后使用膜工艺研究了从预处理过的水中回收水的效果。为此,研究了电极类型(铝、铁、石墨和不锈钢)、电流密度(25-75 A/m2 )和电解时间(15-120 分钟)等独立控制变量对化学需氧量(COD)和色度去除率的影响。结果表明,在电流密度为 75 A/m2、pH 值为 6.84、反应时间为 120 分钟的铝电极条件下,电解法的 COD 去除率为 81.0%,色素去除率为 100%。相比之下,在类似条件下,使用石墨电极的环氧乙烷可去除 55.6% 的 COD 和 100% 的色素。据计算,运行成本在 0.56-30.62 美元/立方米之间。总之,研究结果表明,石墨电极环氧乙烷是一种很有前途的去除各种有机物的预处理工艺。在膜处理过程中,使用了 NP030、NP010 和 NF90 膜,体积为 250 mL,压力为 5 bar。膜对 COD 的去除率高达 94%。EC 与膜工艺的结合证明了从 TP 废水中回收水的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Treatment of tomato paste wastewater by electrochemical and membrane processes: process optimization and cost calculation
This study investigated the treatment of wastewater from tomato paste (TP) production using electrocoagulation (EC) and electrooxidation (EO). The effectiveness of water recovery from the pretreated water was then investigated using the membrane process. For this purpose, the effects of independent control variables, including electrode type (aluminum, iron, graphite, and stainless steel), current density (25–75 A/m2), and electrolysis time (15–120 min) on chemical oxygen demand (COD) and color removal were investigated. The results showed that 81.0% of COD and 100% of the color removal were achieved by EC at a current density of 75 A/m2, a pH of 6.84 and a reaction time of 120 min aluminum electrodes. In comparison, EO with graphite electrodes achieved 55.6% of COD and 100% of the color removal under similar conditions. The operating cost was calculated to be in the range of $0.56–30.62/m3. Overall, the results indicate that EO with graphite electrodes is a promising pretreatment process for the removal of various organics. In the membrane process, NP030, NP010, and NF90 membranes were used at a volume of 250 mL and 5 bar. A significant COD removal rate of 94% was achieved with the membrane. The combination of EC and the membrane process demonstrated the feasibility of water recovery from TP wastewater..
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