Geologic and hydrologic aspects of brine disposal intervals in the Appalachian Basin

Q2 Earth and Planetary Sciences Environmental Geosciences Pub Date : 2015-12-01 DOI:10.1306/EG.09031515008
J. Sminchak
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引用次数: 3

Abstract

Many different rock intervals are used for brine disposal injection in the Appalachian Basin. The study area was defined as eastern Kentucky, Ohio, Pennsylvania, and West Virginia. Brine injection in the study area has increased from approximately 6–7 million barrels (bbl) per year in the early 2000s to 17.6 million bbl in 2012, mostly due to shale gas activity. A review of geologic properties and subsurface distribution of rock formations used for injection is useful to understand brine disposal operations in the region. Operational data on injection rates and pressures were compiled for 2008–2012 for more than 300 class II brine disposal wells. Several class II brine disposal wells were monitored with continuous wellhead pressure loggers to estimate reservoir properties and understand injection operations. Project results provide a catalog of injection rates for the various formations, which range from hundreds to more than 100,000 bbl per month per well. Hydrologic analysis of depleted hydrocarbon reservoirs and deep saline formations in the study area indicates that there is a large capacity for brine disposal, but the characteristics of the rock formations may limit injection rates. Based on hydrocarbon production and brine injection volumes from 2008 to 2012, approximately 9984 bbl of brine were routed to class II brine disposal wells per billion cubic feet gas production, which suggests ultimate demand of up to 706–2290 million bbl brine disposal related to unconventional Marcellus and Utica plays. Understanding the geology and operational history of the injection zones is critical to support safe, reliable, and environmentally responsible brine disposal in the region.
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阿巴拉契亚盆地卤水处理间隔的地质和水文方面
在阿巴拉契亚盆地,许多不同的岩石层段被用于盐水处理注入。研究区域被定义为肯塔基州东部、俄亥俄州、宾夕法尼亚州和西弗吉尼亚州。研究区域的盐水注入量从21世纪初的每年约600 - 700万桶增加到2012年的1760万桶,主要是由于页岩气的活动。回顾用于注入的岩层的地质性质和地下分布有助于了解该地区的盐水处理作业。收集了2008-2012年300多口II级盐水处理井的注入速率和压力数据。通过连续井口压力记录仪对几口II级盐水处理井进行监测,以估计储层性质并了解注入作业情况。项目结果提供了不同地层的注入速率目录,每口井每月注入量从数百桶到超过10万桶不等。对研究区衰竭油气藏和深部含盐地层的水文分析表明,研究区具有较大的盐水处理能力,但地层特征可能会限制注入速度。根据2008年至2012年的油气产量和盐水注入量,每10亿立方英尺天然气产量中约有9984桶盐水被输送到II类盐水处理井,这表明与非常规Marcellus和Utica区块相关的最终盐水处理需求高达706-2290万桶。了解注入区的地质和作业历史对于支持该地区安全、可靠和环保的盐水处理至关重要。
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Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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