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Title: Characterization of shale using Helium and Argon at high pressures

Journal Article · · Journal of Petroleum Science and Engineering
 [1];  [1];  [1];  [1]
  1. Univ. of Southern California, Los Angeles, CA (United States)
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In order to estimate the shale gas in place and the eventual recovery during shale gas operations, one of the key requirements is to accurately characterize the shale’s petrophysical and transport properties such as porosity, permeability, diffusivity, and storage capacity. Despite the many efforts reported in the technical literature aiming to provide an improved understanding of the complex pore structures and the associated fluid flow in gas shales, complete characterization of organic-rich shale samples still poses a big challenge. Here, we have characterized mass transfer and sorption in shale at different length scales using Helium (He) and Argon (Ar) as probe gases. Thermogravimetric analysis (TGA) with a shale cube of ~1 cm3 in size and gas expansion experiments with a full-diameter core (3.5” in diameter) were used to measure sorption kinetics/isotherms and mass transfer, respectively. Both samples are from the same depth/location in the Marcellus shale formation. The TGA steady-state technique was initially used to generate excess sorption isotherms for Ar, while dynamic TGA experiments were used to study its sorption kinetics. The TGA experiments demonstrate that Ar, which has a similar sorption potential as Methane, but is generally assumed to be inert, adsorbs onto the surfaces of the mesoporous and microporous regions of the shale samples according to a Langmuir-type behavior. Helium expansion experiments, on the full-diameter core, were used to measure the overall porosity, on the basis that He is a non-sorbing and inert gas as compared to Ar. The He expansion experiments, furthermore, allow us to delineate the mass transfer of gas across the inherent hierarchy of pore sizes, including macropores (macro- and microcracks), mesopores and micropores. Similar expansion experiments were also performed with Ar to study the combined impact of mass transfer and sorption. A triple-porosity model (TPM) was utilized to interpret the He expansion experiments with the shale core and to extract (estimate) relevant transport parameters. We report and compare here the diffusivities and permeabilities of the whole core for both He and Ar, as calculated from the modeling and fitting of the experimental data. On the premise that the shale cube is representative of the matrix region of the core, the Ar sorption kinetics from the cube experiments were subsequently combined with the transport parameters extracted from the He experiments to predict the behavior of the Ar expansion test with the full-diameter core. An excellent agreement is observed between the model predictions and the experimental data. The experimental observations and their interpretation indicate that one must be cautious when using Ar to estimate the true porosity and permeability of shales. In addition, we demonstrate that He and Ar probe gases, when used in tandem, can be employed effectively as a tool to characterize shales in terms of mass transfer and sorption dynamics across scales.

Research Organization:
Stanford Univ., CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Grant/Contract Number:
SC0019165
OSTI ID:
1843398
Alternate ID(s):
OSTI ID: 1806605
Journal Information:
Journal of Petroleum Science and Engineering, Vol. 206; ISSN 0920-4105
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (40)

A numerical dual-porosity model with semianalytical treatment of fracture/matrix flow journal July 1993
Impact of shale matrix mechanical interactions on gas transport during production journal January 2020
DFT modeling of CO 2 and Ar low-pressure adsorption for accurate nanopore structure characterization in organic-rich shales journal September 2017
Competitive Sorption of Methane/Ethane Mixtures on Shale: Measurements and Modeling journal November 2015
Experimental Investigation of the Dependence of Accessible Porosity and Methane Sorption Capacity of Carbonaceous Shales on Particle Size journal February 2020
Review of experimental sorption studies of CO2 and CH4 in shales journal January 2020
Experimental and Numerical Investigation of Dynamic Gas Adsorption/Desorption–Diffusion Process in Shale journal November 2016
Characterization of gas shale pore systems by porosimetry, pycnometry, surface area, and field emission scanning electron microscopy/transmission electron microscopy image analyses: Examples from the Barnett, Woodford, Haynesville, Marcellus, and Doig units journal June 2012
Modeling of Gas Production from Shale Reservoirs Considering Multiple Transport Mechanisms journal December 2015
Multiscale model reduction for shale gas transport in poroelastic fractured media journal January 2018
Matrix-fracture transfer shape factors for dual-porosity simulators journal November 1995
Thermodynamics of High-Pressure Adsorption of Argon, Nitrogen, and Methane on Microporous Adsorbents journal June 1998
A review of the current progress of CO2 injection EOR and carbon storage in shale oil reservoirs journal January 2019
Shale Gas-in-Place Calculations Part I: New Pore-Scale Considerations journal March 2012
A bidisperse pore diffusion model for methane displacement desorption in coal by CO2 injection☆ journal July 2003
Experimental study of fluid transport processes in the matrix system of the European organic-rich shales: I. Scandinavian Alum Shale journal March 2014
Adsorption of supercritical fluids in non-porous and porous carbons: analysis of adsorbed phase volume and density journal January 2003
Apparent gas permeability in an organic-rich shale reservoir journal October 2016
Gas transport characteristics in shale matrix based on multiple mechanisms journal April 2020
Evolution of shale apparent permeability under variable boundary conditions journal March 2018
Rock characterization of Fayetteville shale gas plays journal March 2013
Measuring and Modeling the Competitive Adsorption of CO 2 , CH 4 , and N 2 on a Dry Coal journal August 2008
Multiscale simulations of shale gas transport in micro/nano-porous shale matrix considering pore structure influence journal April 2019
Measurements of gas permeability and diffusivity of tight reservoir rocks: different approaches and their applications journal August 2009
Pore structure, gas storage and matrix transport characteristics of lacustrine Newark shale journal November 2018
Impact of mass balance calculations on adsorption capacities in microporous shale gas reservoirs journal December 2007
Microstructural investigation of gas shales in two and three dimensions using nanometer-scale resolution imaging journal April 2012
Non-equilibrium molecular dynamics simulation of gas flow in organic nanochannels journal July 2016
An experimental investigation of spontaneous imbibition in gas shales journal November 2013
Gas transport and storage capacity in shale gas reservoirs – A review. Part A: Transport processes journal December 2015
Discrete fracture model with multi-field coupling transport for shale gas reservoirs journal September 2017
Sorption by solids with bidisperse pore structures journal September 1971
Dynamic pore network modelling of real gas transport in shale nanopore structure journal January 2020
Influence of Microcracks on Flow and Storage Capacities of Gas Shales at Core Scale journal October 2018
An accurate model for the filling pressure of carbon slit-like micropores journal October 2015
Nanopores and Apparent Permeability of Gas Flow in Mudrocks (Shales and Siltstone) journal August 2009
Adsorption measurements of argon, neon, krypton, nitrogen, and methane on activated carbon up to 650 MPa journal February 1992
Laboratory Measurement of Sorption Isotherm Under Confining Stress With Pore-Volume Effects journal August 2013
Measurement of dynamic adsorption–diffusion process of methane in shale journal May 2016
Theory for Irreversible and Constant-Pattern Solid Diffusion journal August 1953

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