3D printing for constructing biocarriers using sodium alginate/ε-poly-l-lysine ink: Enhancing microbial enrichment for efficient nitrogen removal in wastewater.

IF 8 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Science of the Total Environment Pub Date : 2024-11-10 Epub Date: 2024-08-05 DOI:10.1016/j.scitotenv.2024.175296
Yinuo Liu, Huilin Wan, Jiaojiao Niu, Minghao Zhao, Wei Shang, Pengfeng Li, Jiaju Li, Yue Zhang, Zuodong Wu, Yingxin Zhao
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Abstract

The microbial enrichment of traditional biocarriers is limited due to the inadequate consideration of spatial structure and surface charging characteristics. Here, capitalizing on the ability of 3D printing technology to fabricate high-resolution materials, we further designed a positively charged sodium alginate/ε-poly-l-lysine (SA/ε-PL) printing ink, and the 3D printed biocarriers with ideal pore structure and rich positive charge were constructed to enhance the microbial enrichment. The rheological and mechanical tests confirmed that the developed SA/ε-PL ink could simultaneously satisfy the smooth extrusion for printing process and the maintenance of 3D structure. The utilization of the ε-PL secondary cross-linking strategy reinforced the 3D mechanical structure and imparted the requisite physical properties for its application as a biocarrier. Compared with traditional sponge carriers, 3D printed biocarrier had a faster initial attachment rate and a higher biomass of 14.58 ± 1.18 VS/cm3, and the nitrogen removal efficiency increased by 53.9 %. Besides, due to the superior electrochemical properties and biocompatibility, the 3D printed biocarriers effectively enriched the electroactive denitrifying bacteria genus Trichococcus, thus supporting its excellent denitrification performance. This study provided novel insights into the development of new functional biocarriers in the wastewater treatment, thereby providing scientific guidance for practical engineering.

使用海藻酸钠/ε-聚赖氨酸油墨构建生物载体的三维打印技术:增强微生物富集,实现废水的高效脱氮。
由于没有充分考虑空间结构和表面电荷特性,传统生物载体的微生物富集能力有限。在此,我们利用3D打印技术制造高分辨率材料的能力,进一步设计了带正电荷的海藻酸钠/ε-聚赖氨酸(SA/ε-PL)打印油墨,并构建了具有理想孔隙结构和丰富正电荷的3D打印生物载体,以提高微生物富集能力。流变学和力学测试证实,所开发的SA/ε-PL油墨能同时满足印刷过程的平稳挤出和三维结构的保持。ε-PL二次交联策略的使用强化了三维机械结构,并赋予了其作为生物载体所需的物理特性。与传统的海绵载体相比,三维打印生物载体具有更快的初始附着率和更高的生物量(14.58 ± 1.18 VS/cm3),脱氮效率提高了 53.9%。此外,由于三维打印生物载体具有优异的电化学性能和生物相容性,它能有效地富集电活性反硝化细菌毛球菌属,从而支持其优异的反硝化性能。这项研究为开发新的污水处理功能生物载体提供了新的见解,从而为实际工程提供了科学指导。
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来源期刊
Science of the Total Environment
Science of the Total Environment 环境科学-环境科学
CiteScore
17.60
自引率
10.20%
发文量
8726
审稿时长
2.4 months
期刊介绍: The Science of the Total Environment is an international journal dedicated to scientific research on the environment and its interaction with humanity. It covers a wide range of disciplines and seeks to publish innovative, hypothesis-driven, and impactful research that explores the entire environment, including the atmosphere, lithosphere, hydrosphere, biosphere, and anthroposphere. The journal's updated Aims & Scope emphasizes the importance of interdisciplinary environmental research with broad impact. Priority is given to studies that advance fundamental understanding and explore the interconnectedness of multiple environmental spheres. Field studies are preferred, while laboratory experiments must demonstrate significant methodological advancements or mechanistic insights with direct relevance to the environment.
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