Author : Okwuosa Francis Chukwuma
Publisher :
ISBN 13 :
Total Pages : 68 pages
Book Rating : 4.:/5 (132 download)
Book Synopsis Nanopetrophysics of the Utica Shale, Appalachian Basin , Ohio, USA by : Okwuosa Francis Chukwuma
Download or read book Nanopetrophysics of the Utica Shale, Appalachian Basin , Ohio, USA written by Okwuosa Francis Chukwuma and published by . This book was released on 2019 with total page 68 pages. Available in PDF, EPUB and Kindle. Book excerpt: The introduction of horizontal drilling combined with the ability to perform multiple stage hydraulic fracture treatment has enabled the oil and gas industry to explore previously unexploitable source formations, where it is estimated that 85% of the original reserves still resides. The application of these techniques provides economic gas and oil flow in extremely low porosity and permeability reservoirs. The Utica play, like the Bakken, Eagle ford, Marcellus, Haynesville, Permian and Niobrara plays are the current focus for unconventional reservoir exploration in the United States where it is estimated that shale gas and oil production from these plays would reach 80 billion cubic feet per day and 9.6 million barrels per day, respectively, by the year 2020 (EIA, 2014). However, despite these recent advances in production techniques used in stimulating tight shale reservoirs, most shale wells are still characterized by overall low recovery and steady steep decline in production typical to unconventional plays. The Utica Shale is not excluded from this, with production from this play showing an initial decline rate of 65% after its first year of production. This may be as a result of the low pore connectivity and very narrow pores that affects movement of hydrocarbon from the shale matrix to the well bore. A number of factors such as pressure volume and temperature (pvt), pore grain composition, multiphase fluid flow have been attributed to this observed phenomenon in shale reservoirs. However, researchers have not investigated the pore structure of the nanopores storing and transporting hydrocarbon.This study will evaluate pore-size distribution and pore connectivity of Utica Shale samples obtained from J. Goins (GS-3), Prudential (1-A) and Fred Barth (#3) wells in Ohio. Using mercury intrusion porosimetry, fluid (DI water, API brine and n-decane) and trace rimbibition, and edge-only accessible porosity tests, we were able to investigate the pore structure, edge accessible porosity, and the degree to which wettability is associated with mineral and organic kerogen phases. The MICP tests gave us initial sample characterization of basic petrophysical properties (porosity, permeability, pore-size distribution, and tortuosity). We examined imbibition behavior and imbibed tracer distribution for fluids (API brine or n-decane) to examine the association of tracers with mineral or kerogen phases using LA-ICP-MS mapping to measure the presence of tracersin each fluid. Mercury intrusion capillary pressure analyses shows that the Utica pores are predominantly in the nanometer size range, with measured average pore-throat diameter of 4 nm to 6 nm across the study location. Imbibition slopes shows an evidence of low pore connectivity which is consistent with percolation theory interpretation of low connectivity and may be due to the observed small pore-throat distribution. These innovative approaches are significant because they may hold the key to understanding fluid flow and pore structure in the nanopores by stipulating the limited accessibility and connectivity in the Utica Shale.