通过添加商业和3D打印生物载体提高移动床生物膜反应器-膜生物反应器性能

Improvement of MBBR-MBR Performance by the Addition of Commercial and 3D-Printed Biocarriers.

作者信息

Banti Dimitra C, Samaras Petros, Kostopoulou Eleni, Tsioni Vassiliki, Sfetsas Themistoklis

机构信息

QLAB Private Company, Research & Development, Quality Control and Testing Services, 57008 Thessaloniki, Greece.

Department of Food Science and Technology, School of Geotechnical Sciences, International Hellenic University, 57400 Thessaloniki, Greece.

出版信息

Membranes (Basel). 2023 Jul 25;13(8):690. doi: 10.3390/membranes13080690.

DOI:10.3390/membranes13080690

PMID:37623751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10456846/

Abstract

Moving bed biofilm reactor combined with membrane bioreactor (MBBR-MBR) constitute a highly effective wastewater treatment technology. The aim of this research work was to study the effect of commercial K1 biocarriers (MBBR-MBR K1 unit) and 3D-printed biocarriers fabricated from 13X and Halloysite (MBBR-MBR 13X-H unit), on the efficiency and the fouling rate of an MBBR-MBR unit during wastewater treatment. Various physicochemical parameters and trans-membrane pressure were measured. It was observed that in the MBBR-MBR K1 unit, membrane filtration improved reaching total membrane fouling at 43d, while in the MBBR-MBR 13X-H and in the control MBBR-MBR total fouling took place at about 32d. This is attributed to the large production of soluble microbial products (SMP) in the MBBR-MBR 13X-H, which resulted from a large amount of biofilm created in the 13X-H biocarriers. An optimal biodegradation of the organic load was concluded, and nitrification and denitrification processes were improved at the MBBR-MBR K1 and MBBR-MBR 13X-H units. The dry mass produced on the 13X-H biocarriers ranged at 4980-5711 mg, three orders of magnitude larger than that produced on the K1, which ranged at 2.9-4.6 mg. Finally, it was observed that mostly extracellular polymeric substances were produced in the biofilm of K1 biocarriers while in 13X-H mostly SMP.

摘要

移动床生物膜反应器与膜生物反应器相结合（MBBR-MBR）构成了一种高效的废水处理技术。本研究工作的目的是研究商用K1生物载体（MBBR-MBR K1单元）以及由13X和埃洛石制成的3D打印生物载体（MBBR-MBR 13X-H单元）对MBBR-MBR单元在废水处理过程中的效率和污染速率的影响。测量了各种理化参数和跨膜压力。观察到，在MBBR-MBR K1单元中，膜过滤性能得到改善，在第43天达到总膜污染，而在MBBR-MBR 13X-H单元和对照MBBR-MBR单元中，总污染大约在第32天发生。这归因于MBBR-MBR 13X-H中可溶性微生物产物（SMP）的大量产生，这是由13X-H生物载体中形成的大量生物膜导致的。得出了对有机负荷的最佳生物降解效果，并且在MBBR-MBR K1单元和MBBR-MBR 13X-H单元中硝化和反硝化过程得到了改善。13X-H生物载体上产生的干质量在4980-5711毫克之间，比K1生物载体上产生的干质量大三个数量级，K1生物载体上产生的干质量在2.9-4.6毫克之间。最后，观察到K1生物载体的生物膜中主要产生细胞外聚合物，而在13X-H生物膜中主要产生SMP。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/56b4/10456846/82f267ca9719/membranes-13-00690-g001.jpg

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通过添加商业和3D打印生物载体提高移动床生物膜反应器-膜生物反应器性能

Improvement of MBBR-MBR Performance by the Addition of Commercial and 3D-Printed Biocarriers.

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