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受化学基质影响的马塞勒斯页岩产出流体中天然存在的放射性核素(NORM)的分配

Partitioning of naturally-occurring radionuclides (NORM) in Marcellus Shale produced fluids influenced by chemical matrix.

作者信息

Nelson Andrew W, Johns Adam J, Eitrheim Eric S, Knight Andrew W, Basile Madeline, Bettis E Arthur, Schultz Michael K, Forbes Tori Z

机构信息

Interdisciplinary Human Toxicology Program, University of Iowa, ML B180 FRRB, 500 Newton Road, Iowa City, Iowa, USA 52242.

出版信息

Environ Sci Process Impacts. 2016 Apr;18(4):456-63. doi: 10.1039/c5em00540j. Epub 2016 Mar 8.

DOI:10.1039/c5em00540j
PMID:26952871
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5538885/
Abstract

Naturally-occurring radioactive materials (NORM) associated with unconventional drilling produced fluids from the Marcellus Shale have raised environmental concerns. However, few investigations into the fundamental chemistry of NORM in Marcellus Shale produced fluids have been performed. Thus, we performed radiochemical experiments with Marcellus Shale produced fluids to understand the partitioning behavior of major radioelements of environmental health concern (uranium (U), thorium (Th), radium (Ra), lead (Pb), and polonium (Po)). We applied a novel radiotracer, (203)Pb, to understand the behavior of trace-levels of (210)Pb in these fluids. Ultrafiltration experiments indicated U, Th, and Po are particle reactive in Marcellus Shale produced fluids and Ra and Pb are soluble. Sediment partitioning experiments revealed that >99% of Ra does not adsorb to sediments in the presence of Marcellus Shale produced fluids. Further experiments indicated that although Ra adsorption is related to ionic strength, the concentrations of heavier alkaline earth metals (Ba, Sr) are stronger predictors of Ra solubility.

摘要

与马塞勒斯页岩非常规钻井产出液相关的天然放射性物质(NORM)引发了环境担忧。然而,针对马塞勒斯页岩产出液中NORM基本化学性质的研究却很少。因此,我们对马塞勒斯页岩产出液进行了放射化学实验,以了解对环境健康有影响的主要放射性元素(铀(U)、钍(Th)、镭(Ra)、铅(Pb)和钋(Po))的分配行为。我们应用了一种新型放射性示踪剂(203)Pb,以了解这些流体中痕量水平的(210)Pb的行为。超滤实验表明,在马塞勒斯页岩产出液中,U、Th和Po具有颗粒反应性,而Ra和Pb是可溶的。沉积物分配实验表明,在存在马塞勒斯页岩产出液的情况下,>99%的Ra不会吸附到沉积物上。进一步的实验表明,虽然Ra的吸附与离子强度有关,但较重的碱土金属(Ba、Sr)的浓度是Ra溶解度更强的预测指标。

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