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Insights into Waterflooding in Hydrocarbon-Bearing Nanochannels of Varying Cross Sections from Mesoscopic Multiphase Flow Simulations

Journal Article · · Langmuir
 [1];  [2];  [3]
  1. Idaho National Laboratory (INL), Idaho Falls, ID (United States); State Univ. of New York (SUNY), Buffalo, NY (United States)
  2. Idaho National Laboratory (INL), Idaho Falls, ID (United States)
  3. State Univ. of New York (SUNY), Buffalo, NY (United States)
+ Show Author Affiliations

Waterflooding is one of the geotechnique used to recover fuel sources from nanoporous geological formations. The scientific understanding of the process that involves the multiphase flow of nanoconfined fluids, however, has lagged, mainly due to the complex nanopore geometries and chemical compositions. To enable benchmarked flow of nanoconfined fluids, the architected geomaterials, such as synthesized mesoporous silica with tunable pore shapes and surface chemical properties, are used for designing and conducting experiments and simulations. This work uses a modified many-body dissipative particle dynamics (mDPD) model with accurately calibrated parameters to perform parametric flow simulations for studying the influences of waterflooding driven power, pore shape, surface roughness, and surface wettability on the multiphase flow in heptane-saturated silica nanochannels. Remarkably, up to 80\% reduction in the effective permeability is found for water-driven heptane flow in a baseline 4.5 nm-wide slit channel, when compared with the Hagen–Poiseuille equation. In the 4.5 nm-wide channels with architected surface roughness, the flow rate is found either higher or lower than the baseline case, depending on the shape and size of cross-sections. High wettability of the solid surface to water is essential for achieving high recovery of heptane, regardless of surface roughness. When the solid surface is less wetting or non-wetting to water, the existence of an optimal waterflooding driven power is found to allow for the highest possible recovery. A detailed analysis on the evolution of the transient water-heptane interface in those nanochannels is presented to elucidate the underlying mechanisms that impact or dictate the multiphase flow behaviors.

Research Organization:
Idaho National Laboratory (INL), Idaho Falls, ID (United States); Energy Frontier Research Centers (EFRC) (United States). Multi-scale Fluid-Solid Interactions in Architected and Natural Materials (MUSE)
Sponsoring Organization:
USDOE Office of Science (SC); USDOE Office of Nuclear Energy (NE)
Grant/Contract Number:
AC07-05ID14517; SC0019285
OSTI ID:
1976150
Alternate ID(s):
OSTI ID: 2204479
Report Number(s):
INL/JOU--23-72528-Rev000
Journal Information:
Langmuir, Journal Name: Langmuir Journal Issue: 20 Vol. 39; ISSN 0743-7463
Publisher:
American Chemical SocietyCopyright Statement
Country of Publication:
United States
Language:
English

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Related Subjects

58 GEOSCIENCES
dissipative particle dynamics
fluids
mathematical methods
nanochannels
nanoconfinement
nanoparticles
surface morphology
wettability
wetting