U.S. Geological Survey, Leetown Science Center, 11649 Leetown Rd., Kearneysville, WV 25430, United States.
The Nature Conservancy, Global Lands Team, 117 E. Mountain Avenue, Suite 201, Fort Collins, CO 80524, United States.
Sci Total Environ. 2017 Mar 1;581-582:369-377. doi: 10.1016/j.scitotenv.2016.12.142. Epub 2016 Dec 30.
Extraction of oil and gas from unconventional sources, such as shale, has dramatically increased over the past ten years, raising the potential for spills or releases of chemicals, waste materials, and oil and gas. We analyzed spill data associated with unconventional wells from Colorado, New Mexico, North Dakota and Pennsylvania from 2005 to 2014, where we defined unconventional wells as horizontally drilled into an unconventional formation. We identified materials spilled by state and for each material we summarized frequency, volumes and spill rates. We evaluated the environmental risk of spills by calculating distance to the nearest stream and compared these distances to existing setback regulations. Finally, we summarized relative importance to drinking water in watersheds where spills occurred. Across all four states, we identified 21,300 unconventional wells and 6622 reported spills. The number of horizontal well bores increased sharply beginning in the late 2000s; spill rates also increased for all states except PA where the rate initially increased, reached a maximum in 2009 and then decreased. Wastewater, crude oil, drilling waste, and hydraulic fracturing fluid were the materials most often spilled; spilled volumes of these materials largely ranged from 100 to 10,000L. Across all states, the average distance of spills to a stream was highest in New Mexico (1379m), followed by Colorado (747m), North Dakota (598m) and then Pennsylvania (268m), and 7.0, 13.3, and 20.4% of spills occurred within existing surface water setback regulations of 30.5, 61.0, and 91.4m, respectively. Pennsylvania spills occurred in watersheds with a higher relative importance to drinking water than the other three states. Results from this study can inform risk assessments by providing improved input parameters on volume and rates of materials spilled, and guide regulations and the management policy of spills.
过去十年间,从非常规来源(如页岩)中提取石油和天然气的数量大幅增加,增加了化学品、废物、石油和天然气泄漏或释放的可能性。我们分析了 2005 年至 2014 年间科罗拉多州、新墨西哥州、北达科他州和宾夕法尼亚州非常规井的泄漏数据,将非常规井定义为水平钻入非常规地层的井。我们按州确定了泄漏的物质,并对每种物质的频率、体积和泄漏率进行了总结。我们通过计算到最近溪流的距离来评估泄漏的环境风险,并将这些距离与现有的后退法规进行比较。最后,我们总结了在发生泄漏的流域对饮用水的相对重要性。在这四个州,我们共确定了 21300 口非常规井和 6622 起报告的泄漏事件。2000 年代后期,水平井数量急剧增加;除宾夕法尼亚州外,所有州的泄漏率都在增加,宾夕法尼亚州的泄漏率最初增加,在 2009 年达到最大值,然后下降。废水、原油、钻井废物和水力压裂液是最常泄漏的物质;这些物质的泄漏量主要在 100 到 10000L 之间。在所有州中,泄漏到溪流的平均距离在新墨西哥州最高(1379m),其次是科罗拉多州(747m)、北达科他州(598m)和宾夕法尼亚州(268m),分别有 7.0%、13.3%和 20.4%的泄漏事件发生在 30.5m、61.0m 和 91.4m 的地表水后退法规范围内。宾夕法尼亚州的泄漏事件发生在对饮用水相对重要性高于其他三个州的流域。本研究的结果可以通过提供关于泄漏物质体积和速率的改进输入参数来为风险评估提供信息,并为法规和泄漏管理政策提供指导。
