State of the Practice Worldwide: Complex Installation for In Situ Thermal Remediation Beneath an Active Manufacturing Facility

IF 1.8 4区 环境科学与生态学 Q3 WATER RESOURCES
Gorm Heron, Chris Thomas, Chad Crownover, Robert Glass, Gregory Crisp, Bruce S. Kennington, Scott Tarmann, Luis Hidalgo
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Abstract

In situ thermal remediation (ISTR) was used to treat a vadose-zone source of trichloroethylene present at depths of 60 to 125 ft. below an occupied building at an active manufacturing facility. ISTR required innovative methods to install 135 steel casings from inside the building that included access limitations, space constraints that required angled borings and pre-modeling of rig mast positions, control measures to manage exhaust from up to four drill rigs operating simultaneously, adjustments to heater wiring to limit temperatures in shallow soils leading to indoor air heating and potential for vapor intrusion, and ensure proper positioning and trajectory of closely spaced heaters. The installed heater casings were surveyed using a Devi-Flex™ tool to monitor heater placement in casings that ranged from 87 to 196 ft. at angles between 90° and 30° from horizontal and periodically had to compensate for deflections caused by cobbles and boulders. Additional casings were installed to ensure adequate heater spacings in cases where deviations exceeded design parameters. ISTR was conducted using custom-built thermal conduction heaters designed to minimize heat output in the shallow vadose zone and inside the building while temperatures in the lower vadose zone were maintained near boiling. Cables, vapor extraction pipes, and exhaust ducts were routed overhead and through the building roof to minimize disturbance to manufacturing operations. To expedite remediation, three groups of heaters and vapor recovery wells were installed and operated in overlapping periods. The major challenges and solutions for ISTR design, construction, and operation are presented. Operations and remedial results are covered in a companion paper.

Abstract Image

世界范围内的实践现状:在一个活跃的生产设施下面进行原位热修复的复杂装置
原位热修复(ISTR)用于处理60 ~ 125英尺深的三氯乙烯气相带源。在一个活跃的制造工厂的被占用的建筑物下面。ISTR需要创新的方法从建筑内部安装135个钢套管,包括访问限制,空间限制,需要角度钻孔和钻机桅杆位置的预建模,控制措施,以管理多达四个钻机同时运行的排气,调整加热器布线以限制浅层土壤温度,导致室内空气加热和潜在的蒸汽侵入。确保紧密间隔加热器的正确定位和运行轨迹。使用devii - flex™工具对已安装的加热器套管进行了检查,以监测加热器在套管中的位置,范围从87英尺到196英尺。在90°和30°之间的角度与水平,并定期补偿由鹅卵石和巨石造成的偏转。安装了额外的套管,以确保在偏差超过设计参数的情况下有足够的加热器间距。ISTR使用定制的导热加热器进行,旨在最大限度地减少浅渗透区和建筑内部的热量输出,而低渗透区的温度保持在接近沸点的水平。电缆、蒸汽提取管道和排气管道被布置在建筑物的头顶和屋顶上,以尽量减少对制造操作的干扰。为了加快修复速度,安装了三组加热器和蒸汽回收井,并在重叠的时间段内进行了作业。提出了ISTR设计、建设和运行面临的主要挑战和解决方案。手术和补救结果将在配套文件中介绍。
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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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