Evaluation of Bio-Membrane System Efficiency Optimized With Nanotechnology for Treatment of Pulp and Paper Industry Wastewater

Archives of Hygiene Sciences Pub Date : 2023-03-18 DOI:10.34172/ahs.12.1.1.384

Alireza Seify, H. Ahmadi, M. Peyravi, M. Esfahanian

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Abstract

Background & Aims: The membrane adsorption bioreactor (MABR) process is the integration of biological treatment and membrane technology. Accordingly, in this study, an MABR was employed for the pulp and paper industry wastewater treatment. Materials and Methods: The purchased powdered activated carbon (PAC) was added to the system as an adsorbent which improved the flux of the membrane. Results: Based on the obtained results, the organic compounds were successfully removed by the average removal of 62% and 86% without and with an adsorbent, respectively. Moreover, the activated sludge was prepared from the Babol-Toyoor Slaughterhouse wastewater treatment, and adding the PAC to the activated sludge led to the better performance of the MABR system by providing a proper condition for microorganism growth. Monitoring the mixed liquid suspended solids during the process demonstrated that increasing mixed liquor suspended solids (MLSS) increased the contaminant removal rate. Conclusion: Overall, the presence of PAC could prevent microorganisms from accumulating on the membrane surface.

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纳米技术优化生物膜系统处理制浆造纸废水的效果评价

背景与目的:膜吸附生物反应器(MABR)工艺是生物处理技术与膜技术的有机结合。因此，本研究采用MABR处理制浆造纸工业废水。材料与方法:将买来的粉状活性炭(PAC)作为吸附剂加入到体系中，提高了膜的通量。结果:在无吸附剂和有吸附剂的情况下，有机化合物的平均去除率分别为62%和86%。此外，以宝宝堂屠宰场废水处理为原料制备活性污泥，在活性污泥中添加PAC，为微生物的生长提供适宜的条件，使MABR系统的性能得到改善。过程中对混合液悬浮物的监测表明，增加混合液悬浮物(MLSS)可以提高污染物去除率。结论:总的来说，PAC的存在可以防止微生物在膜表面的积聚。

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Archives of Hygiene Sciences

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2 weeks