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Using Single-Molecule Imaging System Combined with Nano-Fluidic Chips to Understand Fluid Flow

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The objective of the project is to improve the understanding of the flow behavior of natural gas and introduced fluids (water, surfactant solutions and polymers) in the nano-darcy range of tight gas and shale formations by using advanced single-molecule imaging system combined with nano-fluidic chips and pore-scale numerical simulation techniques. Specifically, the Subcontractor will examine the flow behavior of gas and introduced fluids in the nano-scale pores and cracks in tight formations and study the effect of introduced fluids on natural gas transportation properties, such as capillary pressure, absolute permeability, relative permeability, non-Darcy flow. The difference of fluid flow in shale and tight sand formations will also be identified.


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    pdf
    09122-29-PA-Palynofacies_Analysis_Submicron_Pore_Modeling_Shale-Gas_Plays-01-23-12.pdf
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    pdf
    FACT SHEET - 09122-29-PFS-Single_Molecule_Imaging_Nano_Fluidic_Chips_Fluid_Flow_Tight_Shale_Gas_Formation-05-21-15.pdf
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    pdf
    09122-29-PA-Submicron-Pore_Characterization_Shale_Gas_Plays-01-23-12.pdf
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    09122-29-PST-Velocity_Profiling_Polymer-Aqueous_Phase_Interface_Microchannel_Single_Molecule_Imaging-01-23-12.pdf
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    09122-29-PA-Numerical_Laboratory_Study_Gas_Flow_Unconventional_Reservoir_Rocks-01-23-12.pdf
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    09122-29-PA-Porosity-Permeability_Granular_Fibrous_Tubular_Geometries-01-23-12.pdf
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Additional Info

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Citation Chad Rowan, Using Single-Molecule Imaging System Combined with Nano-Fluidic Chips to Understand Fluid Flow, 2018-07-27, https://edx.netl.doe.gov/dataset/using-single-molecule-imaging-system-combined-with-nano-fluidic-chips-to-understand-fluid-flow
Is NETL associated Yes
NETL Point of Contact Roy Long
NETL Point of Contact's Email Roy.Long@netl.doe.gov
NETL program or project Unconventional