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Microfluidic Fabrication Techniques for High-Pressure Testing of Microscale Supercritical CO2 Foam Transport in Fractured Unconventional Reservoirs
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Microfluidic Fabrication Techniques for High-Pressure Testing of Microscale Supercritical CO2 Foam Transport in Fractured Unconventional Reservoirs

Microfluidic Fabrication Techniques for High-Pressure Testing of Microscale Supercritical CO2 Foam Transport in Fractured Unconventional Reservoirs

English

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6,485 Views

10:06 min

July 02, 2020

DOI:

10.3791/61369-v

DOI:
10.3791/61369-v

10:06 min
July 02, 2020

7 Views
, , ,
1Department of Chemical and Petroleum Engineering,University of Kansas, 2Department of Chemical Engineering,University of Wyoming

Summary

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This paper describes a protocol along with a comparative study of two microfluidic fabrication techniques, namely photolithography/wet-etching/thermal-bonding and Selective Laser-induced Etching (SLE), that are suitable for high-pressure conditions. These techniques constitute enabling platforms for direct observation of fluid flow in surrogate permeable media and fractured systems under reservoir conditions.

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Microfluidic FabricationHigh-pressure TestingSupercritical CO2 FoamFractured Unconventional ReservoirsPolyelectrolyte Complex NanoparticlesHigh Pressure MicrofluidicsComplex Permeable MediaCCUSChrome EtchingBorosilicate SubstratePhoto ResistUV LightDeveloper Solution

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Hosseini, H., Guo, F., Barati Ghahfarokhi, R., Aryana, S. A. Microfluidic Fabrication Techniques for High-Pressure Testing of Microscale Supercritical CO2 Foam Transport in Fractured Unconventional Reservoirs. J. Vis. Exp. (161), e61369, doi:10.3791/61369 (2020).

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