生物膜在促进放射性排放管道污染形成中的潜在作用。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-08-01 Epub Date: 2023-11-20 DOI:10.1080/08927014.2023.2269532
Franky Barton, Ben F Spencer, Romain Tartèse, James Graham, Samuel Shaw, Katherine Morris, Jonathan R Lloyd
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引用次数: 0

摘要

核设施排放管道会积聚无机物和微生物污垢以及放射性污染,然而,对导致其积聚的机制的研究有限。本研究以塞拉菲尔德排放管道为模型系统,利用改良的罗宾斯装置研究了支持结垢形成和放射性核素吸收的无机和生物过程之间的潜在相互作用。初步实验表明,聚电解质(存在于管道废水中)对结垢形成的影响最小。然而,与非生物膜控制系统相比,生物膜被发现是促进污垢的关键成分,导致无机颗粒和金属污染物(Cs、Sr、Co、Eu和Ru)的吸收增加。生物介导的摄取机制与Co和Ru的积累有关,在生物膜系统上发现了潜在的生物还原Ru物种。这项研究强调了生物膜在促进排放管道结垢方面的关键作用,提倡使用杀生物剂处理方法。
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The potential role of biofilms in promoting fouling formation in radioactive discharge pipelines.

Nuclear facility discharge pipelines accumulate inorganic and microbial fouling and radioactive contamination, however, research investigating the mechanisms that lead to their accumulation is limited. Using the Sellafield discharge pipeline as a model system, this study utilised modified Robbins devices to investigate the potential interplay between inorganic and biological processes in supporting fouling formation and radionuclide uptake. Initial experiments showed polyelectrolytes (present in pipeline effluents), had minimal effects on fouling formation. Biofilms were, however, found to be the key component promoting fouling, leading to increased uptake of inorganic particulates and metal contaminants (Cs, Sr, Co, Eu and Ru) compared to a non-biofilm control system. Biologically-mediated uptake mechanisms were implicated in Co and Ru accumulation, with a potential bioreduced Ru species identified on the biofilm system. This research emphasised the key role of biofilms in promoting fouling in discharge pipelines, advocating for the use of biocide treatments methods.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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