Core-shell bioactive capsule for aquaculture wastewater denitrification

IF 3.7 3区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biochemical Engineering Journal Pub Date : 2024-08-16 DOI:10.1016/j.bej.2024.109469

Hua Li , Yafei Duan , Hongbiao Dong , Jiasong Zhang

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Abstract

The lack of denitrifying bacteria and organic carbon sources, and the inhibition of dissolved oxygen (DO) result in nitrate accumulation in aquaculture wastewater. In order to solve this problem, an encapsulation method was introduced to prepare a novel bioactive capsule, which can provide organic carbon source, denitrifying bacteria, and anoxic microenvironment for aquaculture wastewater denitrification. And can reduce the recovery time of the enclosed denitrifying bacteria. The morphology of the capsule, its nitrate removal rate, and nitrogen conversion pathway in synthetic aquaculture wastewater were investigated. The capsule had a porous surface and the pore diameter ranged from 150.0 nm to 300.0 nm. The enclosed denitrifying bacteria had a reduced recovery time and excellent denitrification performance. The nitrate removal rate reached 86.2 % on the first day and was maintained at 99.7 %. Nitrogen conversion pathways in the capsule include denitrification, assimilatory/dissimilatory nitrate reduction, and nitrogen fixation. The denitrifying capsule has short recovery time and good denitrification performance, which would help to achieve denitrification in aquaculture wastewater or other low C/N wastewater.

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用于水产养殖废水脱氮的核壳生物活性胶囊

反硝化细菌和有机碳源的缺乏以及溶解氧（DO）的抑制导致了水产养殖废水中硝酸盐的积累。为了解决这一问题，引入了一种封装方法，制备了一种新型生物活性胶囊，它可以为水产养殖废水的反硝化提供有机碳源、反硝化菌和缺氧微环境。并能缩短封闭反硝化细菌的恢复时间。研究了合成水产养殖废水中胶囊的形态、硝酸盐去除率和氮转化途径。胶囊表面呈多孔状，孔径在 150.0 纳米到 300.0 纳米之间。封闭的反硝化细菌具有较短的恢复时间和优异的反硝化性能。第一天的硝酸盐去除率就达到了 86.2%，并保持在 99.7%。胶囊中的氮转化途径包括反硝化、同化/分解硝酸盐还原和固氮。反硝化胶囊恢复时间短，反硝化性能好，有助于实现水产养殖废水或其他低 C/N 废水的反硝化。

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来源期刊

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.