利用搅拌管式反应器 (ATR) 强化共沉淀和离子交换,提高 Cs+ 和 Sr2+ 离子的去除率

IF 3.8 3区 工程技术 Q3 ENERGY & FUELS Chemical Engineering and Processing - Process Intensification Pub Date : 2024-11-19 DOI:10.1016/j.cep.2024.110077
Oguzhan Kivan , Muhammad Yusuf , Rachael Filson-Halliwell , Jennifer N. Enemmoh , David Harbottle , Timothy N. Hunter
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引用次数: 0

摘要

在间歇系统和搅拌管式反应器(ATR)中合成了复合混凝剂,该反应器使用天然霞石与重晶石(BaSO4)共沉淀,可同时强化去除 Cs+ 和 Sr2+ 离子。在 3 赫兹和 5 赫兹的振荡条件下,对 ATR 的理想塞流特性进行了初步评估,结果表明,在较高的振荡速率下,ATR 表现出假塞流特性。通过扫描电镜和粒度分析对复合絮凝物进行了表征,同时还通过沉淀和压力过滤对脱水性进行了研究。与间歇法相比,ATR 法得出的团聚体尺寸更小,但更致密、更单分散。测得的复合絮凝体的比滤饼阻力也比纯硫酸钡小 10 倍。在 5 Hz 振荡条件下,ATR 对 Cs+(95.7%)和 Sr2+(99.9%)的金属去除率更高。在加入 Na2SO4 之后,通过在 ATR 中引入 Ba2+ 离子,进一步提高了 Cs+ 的去除率,Cs+ 去除率达到 96%,Sr2+ 去除率达到 99.9%。总之,这项研究表明,复合絮体在去除 Cs+ 和 Sr2+ 离子方面优于纯 BaSO4,同时还具有更高的脱水性和过滤性。此外,我们还发现 ATR 有效地强化了共沉淀过程,从而有可能缩小工厂规模并降低成本,使其成为模块化核清理和后期管理运营的合适工艺。
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Intensified co-precipitation and ion exchange using an agitated tubular reactor (ATR) for enhanced removal of Cs+ and Sr2+ ions
Composite coagulants were synthesised in both a batch system and an agitated tubular reactor (ATR) using natural clinoptilolite with barite (BaSO4) co-precipitation for the intensified simultaneous removal of Cs+ and Sr2+ ions. Ideal plug-flow characterisation of ATR was initially assessed under 3 and 5 Hz oscillations, showing pseudo plug-flow behaviour at the higher rate. Composite flocs were characterised by SEM and size analysis, while dewaterability was also studied by sedimentation and pressure filtration. Aggregate sizes were smaller, but denser and more monodisperse from the ATR than in batch. Composite flocs also gave measured specific cake resistances > 10 × smaller than pure BaSO4. The higher metal removal performance was achieved using the ATR for Cs+ (95.7%) and Sr2+ (99.9%) at 5 Hz oscillation. A further enhancement for Cs+ removal was achieved by introducing Ba2+ ions into ATR after Na2SO4 addition, achieving > 96% Cs+ and > 99.9% Sr2+ removal. Overall, this study highlights that composite flocs outperform pure BaSO4 in Cs+ and Sr2+ ion removal while achieving greater dewaterability and filterability. Additionally, we show the ATR effectively intensified the co-precipitation process, potentially reducing plant size and cost, making it a suitable process for modular nuclear cleanup and post-management operations.
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来源期刊
CiteScore
7.80
自引率
9.30%
发文量
408
审稿时长
49 days
期刊介绍: Chemical Engineering and Processing: Process Intensification is intended for practicing researchers in industry and academia, working in the field of Process Engineering and related to the subject of Process Intensification.Articles published in the Journal demonstrate how novel discoveries, developments and theories in the field of Process Engineering and in particular Process Intensification may be used for analysis and design of innovative equipment and processing methods with substantially improved sustainability, efficiency and environmental performance.
期刊最新文献
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