Leveraging Sequence Stratigraphy to Accelerate Site Remediation: Pliocene Citronelle Formation, Eglin Air Force Base, Florida, USA

IF 1.8 4区 环境科学与生态学 Q3 WATER RESOURCES
Mike Shultz, Colin Plank, Mark Stapleton, Leo Giannetta, Rick Cramer
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Abstract

At Eglin Air Force Base (AFB) in the Florida Panhandle, a groundwater extraction and treatment system was installed to contain and remediate a chlorinated solvent plume. After 2 years of operation, the system was not removing the contaminant mass at the rate predicted or required to meet performance-based contract terms. As a result, a sequence-stratigraphic analysis was initiated to develop a strategy to improve performance. Sequence Stratigraphy methods were employed to identify a marine flooding surface (mfs) formed during a relative sea level highstand. The analysis also found that the mfs was locally eroded away, indicating that incised valleys were eroded into the formation during a relative lowstand of sea level. These valleys were backfilled with coarse-grained fluvial and estuarine strata. The analysis concluded that the groundwater extraction system lacked an extraction well screened within the coarse-grained valley fill. An additional extraction well was installed, which targeted the incised valley fill and resulted in a significant increase in contaminant mass removal rate without increasing system capacity or operational costs. This case study suggests that efficiency improvements are tenable at many sites where groundwater remediation is occurring within the Surficial Aquifer System of the Gulf Coast (Citronelle Formation) as well as sites in similar geologic settings worldwide.

Abstract Image

利用层序地层学加速场地修复:美国佛罗里达州埃格林空军基地上新世雪铁龙组
在佛罗里达狭长地带的埃格林空军基地(AFB),安装了一个地下水提取和处理系统,以控制和修复氯化溶剂羽流。2之后 经过多年的运行,该系统没有以预测或要求的速度去除污染物,以满足基于性能的合同条款。因此,启动了层序地层分析,以制定提高性能的策略。采用层序地层学方法对相对海平面高位形成的海泛面进行了识别。分析还发现,mfs被局部侵蚀,这表明在海平面相对较低的时期,下切山谷被侵蚀到地层中。这些山谷被粗粒的河流和河口地层回填。分析得出的结论是,地下水开采系统缺乏在粗粒山谷填土中筛选的开采井。安装了一个额外的提取井,该井针对下切河谷填土,在不增加系统容量或运营成本的情况下显著提高了污染物质量去除率。该案例研究表明,在墨西哥湾沿岸表层含水层系统(Citronelle组)内进行地下水修复的许多地点以及世界各地类似地质环境中的地点,效率的提高是可行的。
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来源期刊
CiteScore
3.30
自引率
10.50%
发文量
60
审稿时长
>36 weeks
期刊介绍: Since its inception in 1981, Groundwater Monitoring & Remediation® has been a resource for researchers and practitioners in the field. It is a quarterly journal that offers the best in application oriented, peer-reviewed papers together with insightful articles from the practitioner''s perspective. Each issue features papers containing cutting-edge information on treatment technology, columns by industry experts, news briefs, and equipment news. GWMR plays a unique role in advancing the practice of the groundwater monitoring and remediation field by providing forward-thinking research with practical solutions.
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