粉丝废水的污染缓解:改善水质的 Fenton 和好氧污泥综合处理。

IF 2.3 Q2 BIOLOGY Scientifica Pub Date : 2024-10-21 eCollection Date: 2024-01-01 DOI:10.1155/2024/8133617
Phuoc Bao Niem Nguyen, Van Toan Pham, Hoang Viet Le, Pankaj Kumar, Gowhar Meraj
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引用次数: 0

摘要

粉丝生产产生的废水富含有机污染物和营养污染物,对环境构成了巨大挑战。传统的生物处理方法,无论是单独使用还是与其他方法结合使用,往往无法实现高效率和运行稳定性。本研究探讨了 Fenton 工艺和好氧活性污泥法在提高粉丝废水中有机物的生物降解性和矿化性方面的潜力。进行了定向实验,研究 pH 值、反应时间、沉淀时间和 H2O2/Fe2+ 比例等操作变量对 COD 去除率的影响,以选择在 20 升批次中运行该模型的最佳条件,即 pH 值 = 3、反应时间 90 分钟、沉淀时间 90 分钟和 H2O2/Fe2+ 比例为 3 :1(4.5 : 1.5 克/升)。COD、BOD5、TN、TP 和 SS 的去除率分别达到 75.83%、67.26%、28.24%、26.63% 和 91.9%。BOD5/COD 从 0.52 提高到 0.63,促进了好氧活性污泥法的发展,批次条件为 15 L,pH 值为 6.5-8.5,溶解氧≥3 mg/L,附加营养物剂量为 12 mg/L,停留时间为 14 h,沉淀时间为 2 h。结果,除 SS(95.6%、96.0%、84.6%、84.1% 和 83.6%)外,其他参数的去除率均有显著提高,其浓度参数在排入环境前仍保持在越南国家技术法规允许的范围内。然而,由于受到高浓度 TDS 的影响,好氧活性污泥阶段去除 COD 和 BOD5 的处理效率并没有预期的那么高(分别为 83% 和 87.33%)。因此,需要开展更多研究来应对这一挑战。Fenton 工艺与好氧活性污泥相结合的综合处理系统在有效减少粉丝废水中的有机污染物和营养污染物方面表现出了巨大的潜力,从而达到了监管标准。然而,观察到的 COD 和 BOD5 去除效率的限制(可能是由于 TDS 水平升高)表明,需要进一步调查和优化,以提高整体处理性能。
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Pollution Mitigation in Vermicelli Wastewater: Integrated Fenton and Aerobic Sludge Treatment for Water Quality Improvement.

Vermicelli production generates wastewater that is rich in organic and nutrient pollutants, which poses significant environmental challenges. Conventional biological treatments, either alone or in combination with other methods, often fail to achieve high efficiency and operational stability. This study explored the potential of the Fenton process, followed by aerobic activated sludge treatment, to enhance the biodegradability and mineralization of organic substances in vermicelli wastewater. Orientation experiments were performed to examine the effects of operating variables such as pH, reaction time, settling time, and ratio H2O2/Fe2+ on COD removal in order to select the optimal conditions for operating the model in a batch of 20 L, that is, pH = 3, reaction time of 90 min, settling time of 90 min, and ratio of H2O2/Fe2+ used 3 : 1 (4.5 : 1.5 g/L). The removal efficiencies of COD, BOD5, TN, TP, and SS reached 75.83%, 67.26%, 28.24%, 26.63%, and 91.9%, respectively. The BOD5/COD increased from 0.52 to 0.63, facilitating aerobic activated sludge, which had batch conditions of 15 L with pH of 6.5-8.5, DO ≥3 mg/L, additional nutrients with a dose of 12 mg/L, retention time of 14 h, and settling time of 2 h. As a result, the removal rate of those parameters climbed quite notably, except in SS (95.6%, 96.0%, 84.6%, 84.1%, and 83.6%), and their concentration parameters remained within the allowance levels of the National Technical Regulation in Vietnam before being discharged into the environment. However, the efficiency of treatment in the aerobic activated sludge stage for removing COD and BOD5 was not as high as anticipated (83% and 87.33%, respectively) owing to the influence of the high TDS concentration. Thus, additional research is required to address this challenge. The integrated treatment system combining the Fenton process with aerobic activated sludge demonstrated significant potential for the effective reduction of organic and nutrient pollutants in vermicelli wastewater, thereby achieving compliance with regulatory standards. However, the observed limitations in COD and BOD5 removal efficiency, likely due to elevated TDS levels, indicate the need for further investigation and optimization to enhance the overall treatment performance.

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来源期刊
Scientifica
Scientifica BIOLOGY-
CiteScore
6.70
自引率
0.00%
发文量
43
审稿时长
21 weeks
期刊介绍: Scientifica is a peer-reviewed, Open Access journal that publishes research articles, review articles, and clinical studies covering a wide range of subjects in the life sciences, environmental sciences, health sciences, and medicine. The journal is divided into the 65 subject areas.
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