臭氧/生物曝气滤池综合工艺处理回收造纸厂废水:试点规模研究

IF 3.7 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Laibao Ding , Qingwen Tian , Ran Yang , Jinwei Zhu , Qi Guo , Guigan Fang
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引用次数: 0

摘要

本研究采用臭氧(O3)和生物曝气滤池(BAF)联合工艺处理再生纸厂的污水。对臭氧用量、pH 值、水力停留时间(HRT)、体积负荷和气水比等关键运行参数进行了优化。在最佳条件下,臭氧总投加量为 100 克/米,气水比为 4:1,BAF 的水力停留时间为 3.0 小时,处理后废水的化学需氧量(COD)和色度分别降至 44-55 毫克/升和 2-4 PCU,去除率分别达到 70% 和 95%。出水不仅符合中国新的排放标准(GB3544-2008),还可作为循环水使用。此外,在中试规模试验中,废水处理成本约为 1.3 ¥/m3,大大降低了成本。臭氧预处理通过破坏污染物的分子化学结构,提高生物膜的可生化性,对废水脱色效果显著,有利于 BAF 的序贯处理。O3/BAF 系统中的污泥生物量增加,丝状菌减少,脱氢酶活性提高,证明细菌生长稳定而旺盛。气相色谱-质谱分析表明,虽然难降解化合物 (Z)-13-docosenamide 的含量仍然较高,从 27.37% 降至 21.14%,但处理后污染物的含量和多样性大幅减少。研究还提出了 O3/BAF 降解污染物的机理。这项研究表明,臭氧与固定生物膜处理相结合是一种高效、经济的处理方法,为工业废水的处理提供了理论依据和实际应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ozone/biological aerated filter integrated process for recycled paper mill wastewater: A pilot-scale study

In this study, the effluent from recycled paper mill was treated using a combined ozone (O3) and biological aerated filter (BAF) process. Key operational parameters such as ozone dosage, pH, hydraulic retention time (HRT), volume load and gas-to-water ratio were optimized. Under optimal conditions, with a total ozone dosage of 100 g/m, a gas-to-water ratio of 4:1, and an HRT of 3.0 hours in the BAF, the chemical oxygen demand (COD) and chroma of the treated wastewater were reduced to 44–55 mg/L and 2–4 PCU, achieving removal efficiencies of 70 % and 95 %, respectively. The discharge effluent not only satisfy the new discharge standard of China (GB3544–2008), but also can be used as recycling water. Additionally, the treatment cost of wastewater was ca. 1.3 ¥/m3 in pilot-scale test, significantly decreasing the cost. Ozone pretreatment has a significant effect on wastewater decolorization by disrupting the molecular chemical structure of pollutants, which increase the biochemical properties of biofilm and is beneficial to the sequential BAF treatment. The sludge in the O3/BAF system exhibited increased biomass with minimal filamentous bacteria and higher dehydrogenase activity, confirming stable and robust bacterial growth. GC-MS analysis revealed substantial reduction in pollutant content and diversity post-treatment, although the recalcitrant compound (Z)-13-docosenamide remained relatively high, decreasing from 27.37 % to 21.14 %. The mechanism of the O3/BAF process for the pollutant degradation were also proposed. This study demonstrated that a combination of ozone and fixed biofilm treatment is an efficient and cost-effective treatment, providing the theory and practical applicability for the industrial wastewater.

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来源期刊
Biochemical Engineering Journal
Biochemical Engineering Journal 工程技术-工程:化工
CiteScore
7.10
自引率
5.10%
发文量
380
审稿时长
34 days
期刊介绍: The Biochemical Engineering Journal aims to promote progress in the crucial chemical engineering aspects of the development of biological processes associated with everything from raw materials preparation to product recovery relevant to industries as diverse as medical/healthcare, industrial biotechnology, and environmental biotechnology. The Journal welcomes full length original research papers, short communications, and review papers* in the following research fields: Biocatalysis (enzyme or microbial) and biotransformations, including immobilized biocatalyst preparation and kinetics Biosensors and Biodevices including biofabrication and novel fuel cell development Bioseparations including scale-up and protein refolding/renaturation Environmental Bioengineering including bioconversion, bioremediation, and microbial fuel cells Bioreactor Systems including characterization, optimization and scale-up Bioresources and Biorefinery Engineering including biomass conversion, biofuels, bioenergy, and optimization Industrial Biotechnology including specialty chemicals, platform chemicals and neutraceuticals Biomaterials and Tissue Engineering including bioartificial organs, cell encapsulation, and controlled release Cell Culture Engineering (plant, animal or insect cells) including viral vectors, monoclonal antibodies, recombinant proteins, vaccines, and secondary metabolites Cell Therapies and Stem Cells including pluripotent, mesenchymal and hematopoietic stem cells; immunotherapies; tissue-specific differentiation; and cryopreservation Metabolic Engineering, Systems and Synthetic Biology including OMICS, bioinformatics, in silico biology, and metabolic flux analysis Protein Engineering including enzyme engineering and directed evolution.
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