Matthew S Varonka, Melissa A Lombard, Todd M Preston, Timothy T Bartos, Jason R Masoner, Isabelle M Cozzarelli
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引用次数: 0
Abstract
Drilling fluid waste land application, a process where drilling wastes are spread and tilled into the land surface, has become common in some petroleum-producing states, however, the potential benefits and risks of this practice are not well studied. Drilling fluids can be water- or oil-based and can have high concentrations of total soluble salts and total petroleum hydrocarbons. Comprehensive chemical characterization of these fluids is not well documented in the literature, and the extent of land application is largely unknown. We hypothesized that the land application of drill waste would fluctuate over time due to economic factors. To begin to understand the extent of historical and potential future land application, we analyzed data from over 5,800 drilling fluid land application permits collected by the Oklahoma Corporation Commission for years 2000, 2005, 2010, and 2015-2020. During the years studied, drilling fluid wastes were applied to more than 250,000 acres in Oklahoma, with over 54,000 thousand barrels (Mbbl) of liquids and nearly 21,000 Mbbl of solids applied. Land application is widespread (occurring in 59/77 counties), however recent drilling activity, land availability, and the economics of transportation have created conditions favorable for land application specifically in the Anadarko Basin. Land application can co-occur with sensitive areas, such as important groundwater and surface-water drinking sources and agricultural fields used for subsistence or feed crop production. Our approach for quantifying the extent of land application, along with further chemical characterization studies, can aid operators and land managers who are considering this practice in assessing the associated benefits and risks.Implications: Land application of drilling fluid wastes, which can contain high concentrations of total soluble salts and total petroleum hydrocarbons, is a common method of disposal; however, the extent, benefits, and risks of this practice are not well studied. This scope analysis conducted in Oklahoma provides a snapshot of land available for and historical application of drilling fluid wastes, along with contextual data such as economic drivers, land use, population density, and water resources; highlighting the importance of drill fluid characterization and fate studies and providing an approach that can be applied to other areas considering this waste re-use practice.
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