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Title: Approximate solutions for diffusive fracture-matrix transfer: Application to storage of dissolved CO2 in fractured rocks

Abstract

Analytical solutions with infinite exponential series are available to calculate the rate of diffusive transfer between low-permeability blocks and high-permeability zones in the subsurface. Truncation of these series is often employed by neglecting the early-time regime. In this paper, we present unified-form approximate solutions in which the early-time and the late-time solutions are continuous at a switchover time. The early-time solutions are based on three-term polynomial functions in terms of square root of dimensionless time, with the first coefficient dependent only on the dimensionless area-to-volume ratio. The last two coefficients are either determined analytically for isotropic blocks (e.g., spheres and slabs) or obtained by fitting the exact solutions, and they solely depend on the aspect ratios for rectangular columns and parallelepipeds. For the late-time solutions, only the leading exponential term is needed for isotropic blocks, while a few additional exponential terms are needed for highly anisotropic rectangular blocks. The optimal switchover time is between 0.157 and 0.229, with highest relative approximation error less than 0.2%. The solutions are used to demonstrate the storage of dissolved CO2 in fractured reservoirs with low-permeability matrix blocks of single and multiple shapes and sizes. These approximate solutions are building blocks for development of analyticalmore » and numerical tools for hydraulic, solute, and thermal diffusion processes in low-permeability matrix blocks.« less

Authors:
ORCiD logo [1];  [1];  [2];  [1]
+ Show Author Affiliations
  1. Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States). Energy Geosciences Division
  2. Montana State Univ., Bozeman, MT (United States). Big Sky Carbon Sequestration Partnership
Publication Date:
Research Org.:
Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States); Montana State Univ., Bozeman, MT (United States)
Sponsoring Org.:
USDOE Office of Science (SC); USDOE Office of Fossil Energy (FE)
OSTI Identifier:
1393610
Alternate Identifier(s):
OSTI ID: 1430906
Grant/Contract Number:  
AC02-05CH11231; FC26-05NT42587; FE0023323
Resource Type:
Accepted Manuscript
Journal Name:
Water Resources Research
Additional Journal Information:
Journal Volume: 53; Journal Issue: 2; Journal ID: ISSN 0043-1397
Publisher:
American Geophysical Union (AGU)
Country of Publication:
United States
Language:
English
Subject:
54 ENVIRONMENTAL SCIENCES; diffusion; mass transfer; analytical solutions; approximate solutions; fractured rocks; solubility trapping

Citation Formats

Zhou, Quanlin, Oldenburg, Curtis M., Spangler, Lee H., and Birkholzer, Jens T. Approximate solutions for diffusive fracture-matrix transfer: Application to storage of dissolved CO2 in fractured rocks. United States: N. p., 2017. Web. doi:10.1002/2016WR019868.
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Zhou, Quanlin, Oldenburg, Curtis M., Spangler, Lee H., & Birkholzer, Jens T. Approximate solutions for diffusive fracture-matrix transfer: Application to storage of dissolved CO2 in fractured rocks. United States. https://doi.org/10.1002/2016WR019868
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Zhou, Quanlin, Oldenburg, Curtis M., Spangler, Lee H., and Birkholzer, Jens T. Thu . "Approximate solutions for diffusive fracture-matrix transfer: Application to storage of dissolved CO2 in fractured rocks". United States. https://doi.org/10.1002/2016WR019868. https://www.osti.gov/servlets/purl/1393610.
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@article{osti_1393610,
title = {Approximate solutions for diffusive fracture-matrix transfer: Application to storage of dissolved CO2 in fractured rocks},
author = {Zhou, Quanlin and Oldenburg, Curtis M. and Spangler, Lee H. and Birkholzer, Jens T.},
abstractNote = {Analytical solutions with infinite exponential series are available to calculate the rate of diffusive transfer between low-permeability blocks and high-permeability zones in the subsurface. Truncation of these series is often employed by neglecting the early-time regime. In this paper, we present unified-form approximate solutions in which the early-time and the late-time solutions are continuous at a switchover time. The early-time solutions are based on three-term polynomial functions in terms of square root of dimensionless time, with the first coefficient dependent only on the dimensionless area-to-volume ratio. The last two coefficients are either determined analytically for isotropic blocks (e.g., spheres and slabs) or obtained by fitting the exact solutions, and they solely depend on the aspect ratios for rectangular columns and parallelepipeds. For the late-time solutions, only the leading exponential term is needed for isotropic blocks, while a few additional exponential terms are needed for highly anisotropic rectangular blocks. The optimal switchover time is between 0.157 and 0.229, with highest relative approximation error less than 0.2%. The solutions are used to demonstrate the storage of dissolved CO2 in fractured reservoirs with low-permeability matrix blocks of single and multiple shapes and sizes. These approximate solutions are building blocks for development of analytical and numerical tools for hydraulic, solute, and thermal diffusion processes in low-permeability matrix blocks.},
doi = {10.1002/2016WR019868},
journal = {Water Resources Research},
number = 2,
volume = 53,
place = {United States},
year = {Thu Jan 05 00:00:00 EST 2017},
month = {Thu Jan 05 00:00:00 EST 2017}
}
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https://doi.org/10.1002/2016WR019868
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    A Practical Methodology to Screen Oil Recovery Processes Involving Spontaneous Imbibition
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    Flow in Fractured Porous Media: A Review of Conceptual Models and Discretization Approaches
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    • Berre, Inga; Doster, Florian; Keilegavlen, Eirik
    • Transport in Porous Media, Vol. 130, Issue 1
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    Revisiting the Analytical Solutions of Heat Transport in Fractured Reservoirs Using a Generalized Multirate Memory Function
    journal, February 2019

    • Zhou, Quanlin; Oldenburg, Curtis M.; Rutqvist, Jonny
    • Water Resources Research, Vol. 55, Issue 2
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