天然水体“记住”Marcellus页岩水释放事件的时间有多长:使用反应输运模型的一阶近似

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS Geochemical Transactions Pub Date : 2016-12-13 DOI:10.1186/s12932-016-0038-4
Zhang Cai, Li Li
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引用次数: 7

摘要

近年来,Marcellus页岩地层的天然气生产显著改变了能源格局。马塞勒斯页岩回流和采出水的意外泄漏,包括泄漏、泄漏和渗透,可能会对自然水资源造成风险。在化学物质的反应运输过程中存在许多相互竞争的过程,目前尚不清楚哪些过程占主导地位,并控制着马塞勒斯页岩水(MSW)意外释放到自然水域的影响。在这里,我们进行了数值实验来探索这一很大程度上未开发的方面,使用来自城市生活垃圾的阳离子作为示踪剂,重点关注城市生活垃圾释放的阳离子与天然水系统之间的非生物相互作用。利用宾夕法尼亚州布拉德福德县天然水系(含水层和河流)的特征建立了反应输运模型。结果表明,在富粘土砂岩含水层中,离子交换对接收水体中阳离子释放的最大浓度和时间尺度起着关键作用。相比之下,矿物溶解和沉淀作用相对较小。恢复τrr(一个无量纲数,定义为恢复到背景浓度所需时间与自然水体停留时间之比)的相对时间尺度在Na、Ca和Mg的5 ~ 10之间,Sr和Ba的10 ~ 20之间。在具有可忽略粘土的河流和砂砾含水层中,τrr值接近1,因为阳离子大约在一个停留时间内被冲出。这些值可作为自然水系中城市生活垃圾释放时间尺度的一阶估计。这项工作强调了粘土含量的重要性,并表明它更有可能在富含粘土的地质构造中检测到污染。这项工作强调了反应输运模型在理解自然衰减、指导监测和预测污染影响以进行风险评估方面的应用。
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How long do natural waters “remember” release incidents of Marcellus Shale waters: a first order approximation using reactive transport modeling

Natural gas production from the Marcellus Shale formation has significantly changed energy landscape in recent years. Accidental release, including spills, leakage, and seepage of the Marcellus Shale flow back and produced waters can impose risks on natural water resources. With many competing processes during the reactive transport of chemical species, it is not clear what processes are dominant and govern the impacts of accidental release of Marcellus Shale waters (MSW) into natural waters. Here we carry out numerical experiments to explore this largely unexploited aspect using cations from MSW as tracers with a focus on abiotic interactions between cations released from MSW and natural water systems. Reactive transport models were set up using characteristics of natural water systems (aquifers and rivers) in Bradford County, Pennsylvania. Results show that in clay-rich sandstone aquifers, ion exchange plays a key role in determining the maximum concentration and the time scale of released cations in receiving natural waters. In contrast, mineral dissolution and precipitation play a relatively minor role. The relative time scales of recovery τrr, a dimensionless number defined as the ratio of the time needed to return to background concentrations over the residence time of natural waters, vary between 5 and 10 for Na, Ca, and Mg, and between 10 and 20 for Sr and Ba. In rivers and sand and gravel aquifers with negligible clay, τrr values are close to 1 because cations are flushed out at approximately one residence time. These values can be used as first order estimates of time scales of released MSW in natural water systems. This work emphasizes the importance of clay content and suggests that it is more likely to detect contamination in clay-rich geological formations. This work highlights the use of reactive transport modeling in understanding natural attenuation, guiding monitoring, and predicting impacts of contamination for risk assessment.

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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
审稿时长
>12 weeks
期刊介绍: Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.
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