Rock properties derived from analysis of earth tide strain observed in continuous pressure monitoring of the Arbuckle Group of Oklahoma

Perilla-Castillo, Paula

Rock properties derived from analysis of earth tide strain observed in continuous pressure monitoring of the Arbuckle Group of Oklahoma

dc.contributor.advisor	Murray, Kyle
dc.contributor.author	Perilla-Castillo, Paula
dc.contributor.committeeMember	Elmore, Douglas R.
dc.contributor.committeeMember	Nakata, Norimitsu
dc.date.accessioned	2017-05-12T14:16:39Z
dc.date.available	2017-05-12T14:16:39Z
dc.date.issued	2017
dc.date.manuscript	2017-05-11
dc.description.abstract	The Arbuckle Group is an important geologic unit in the state of Oklahoma because of its suitability as a saltwater disposal (SWD) zone. In 2014, the Arbuckle Group received about 68% of the total volumes of saltwater disposal in the state of Oklahoma. Numerous studies show that the rate of saltwater injection into the Arbuckle Group is related to the number and magnitude of earthquakes occurring in Oklahoma. Despite the importance of the Arbuckle Group as a SWD zone and its apparent relationship to induced seismicity, the hydraulic parameters of the Arbuckle Group have not been widely studied or were studied in association with the Simpson Group. Since the mid-20th century, water level fluctuations as a response to earth tides have been used for obtaining aquifer properties of confined and unconfined aquifers. In confined aquifers, earth tides act as a cyclic stress causing water level fluctuations. Time-series analyses of the fluctuations can be used for estimating elastic properties of an aquifer and aquifer hydraulic properties such as specific storage, storage coefficient, transmissivity, porosity, matrix compressibility, hydraulic conductivity, and hydraulic diffusivity. Solid earth tide analysis is a useful tool for calculating rock properties in aquifers or reservoirs where it is not practical to conduct a pumping or a slug test. Confined reservoirs such as the Arbuckle Group respond to small strains and act as volume strain meters. In 2016, a network of inactive Arbuckle SWD wells were instrumented so that pressure fluctuations could be monitored and analyzed. For this thesis research, fluid levels in six of the study wells were evaluated. Fluid levels responded to solid earth tide stresses so that 90-day time series could be analyzed and used to estimate hydraulic and rock properties of the Arbuckle Group in the Anadarko Shelf and the Cherokee Platform geological provinces of Oklahoma. Hydraulic parameters derived from these analysis of these data include median values of 1.39 E-06 m-1 specific storage, 3.69 E-04 storage coefficient, 12.76 m2/d transmissivity, 24% porosity, 3.02 E-07 psi-1 matrix compressibility, 2.21 E-07 m/s hydraulic conductivity, 34.37 mD intrinsic permeability, and 0.69 m2/s hydraulic diffusivity. Values obtained for each of the properties computed in this study differ from the values used in previous studies that modeled the effects of saltwater disposal on subsurface fluid pressure and potential connections to seismicity. These improved values will allow for more realistic predictions of subsurface fluid behavior, pore pressure diffusion, and other geomechanical and seismological processes.	en_US
dc.identifier.uri	http://hdl.handle.net/11244/50808
dc.language	en_US	en_US
dc.subject	saltwater	en_US
dc.subject	groundwater	en_US
dc.subject	earth tide	en_US
dc.subject	Arbuckle Group	en_US
dc.thesis.degree	Master of Science	en_US
dc.title	Rock properties derived from analysis of earth tide strain observed in continuous pressure monitoring of the Arbuckle Group of Oklahoma	en_US
ou.group	Mewbourne College of Earth and Energy::Conoco Phillips School of Geology and Geophysics	en_US
shareok.nativefileaccess	restricted	en_US
shareok.orcid	0000-0002-7501-7857	en_US