Laboratory experiments of field gas huff-n-puff for improving oil recovery from Eagle Ford Shale reservoirs
暂无分享,去创建一个
[1] B. Dindoruk,et al. Using propanol as an additive to CO2 for improving CO2 utilization and storage in oil reservoirs , 2022, Applied Energy.
[2] Yueliang Liu,et al. Absolute adsorption of light hydrocarbons on organic-rich shale: An efficient determination method , 2022, Fuel.
[3] P. Shearing,et al. Novel laboratory investigation of huff-n-puff gas injection for shale oils under realistic reservoir conditions , 2021, Fuel.
[4] Q. Nguyen,et al. A non-aqueous foam concept for improving hydrocarbon miscible flooding in low permeability oil formations , 2020 .
[5] F. B. Thomas,et al. Experimental Measurements of Montney and Duvernay Gas-Cycling Enhanced Oil Recovery GCEOR , 2020 .
[6] C. Clarkson,et al. Optimizing the Huff ‘n’ Puff Gas Injection Performance in Shale Reservoirs Considering the Uncertainty: A Duvernay Shale Example , 2020, SPE Reservoir Evaluation & Engineering.
[7] F. B. Thomas,et al. Insight Gained From Experimental Gas-Cycling Eor in the Unconventional Montney and Duvernay Formations , 2020 .
[8] R. Ambrose,et al. Compositional Tracking of a Huff-n-Puff Project in the Eagle Ford: A Second Take , 2020 .
[9] F. B. Thomas,et al. A Comparison of Primary Depletion and GCEOR in the Montney Formation: Volatile Oil and Rich Gas Condensate , 2020 .
[10] C. Whitson,et al. Compositional Tracking: Predicting Wellstream Compositions in Tight Unconventionals , 2020 .
[11] Q. Nguyen,et al. Effect of Pressure on Vapor/Oil Gravity Drainage in Fractured Reservoirs , 2020, SPE Journal.
[12] F. B. Thomas,et al. Gas-Cycling Enhanced Oil Recovery in Liquids-Rich Production , 2019, Day 1 Thu, November 07, 2019.
[13] Wei Yu,et al. Lean Gas Huff and Puff Process for Eagle Ford Shale with Connecting Natural Fractures: Well Interference, Methane Adsorption and Gas Trapping Effects , 2019, Day 2 Fri, November 08, 2019.
[14] Q. Nguyen,et al. Non Aqueous Foam for Improving Hydrocarbon Miscible Flooding in Water Sensitive Tight Oil Formations , 2019, Day 1 Mon, September 30, 2019.
[15] Q. Nguyen,et al. Pore-Scale Study of Non-Aqueous Foam for Improving Hydrocarbon Miscible Flooding in Water-Sensitive Tight Oil Formations , 2019, Proceedings of the 7th Unconventional Resources Technology Conference.
[16] Q. Nguyen,et al. Viscous oil recovery and in-situ deasphalting in fractured reservoirs – Part 2: Effect of solvent type and temperature , 2019, Fuel.
[17] Q. Nguyen,et al. Effects of Rate, Temperature, and Solvent Type on Vapor/Oil Gravity Drainage (VOGD) in Fractured Reservoirs , 2019, SPE Journal.
[18] Reza Barati,et al. A review of the current progress of CO2 injection EOR and carbon storage in shale oil reservoirs , 2019, Fuel.
[19] Mingzhen Wei,et al. Miscible Gases Based EOR in Unconventional Liquids Rich Reservoirs: What We Can Learn , 2018, Day 2 Tue, December 11, 2018.
[20] Francisco D. Tovar,et al. Gas Injection for EOR in Organic Rich Shales. Part II: Mechanisms of Recovery , 2018 .
[21] D. Beckett,et al. Laboratory Investigation of EOR Techniques for Organic Rich Shales in the Permian Basin , 2018 .
[22] C. Clarkson,et al. Huff-N-Puff Gas Injection Performance in Shale Reservoirs: A Case Study From Duvernay Shale in Alberta, Canada , 2018 .
[23] Francisco D. Tovar,et al. Gas Injection for EOR in Organic Rich Shale. Part I: Operational Philosophy , 2018 .
[24] B. T. Hoffman. Huff-N-Puff Gas Injection Pilot Projects in the Eagle Ford , 2018 .
[25] Q. Nguyen,et al. Viscous Oil Recovery and In Situ Deasphalting in Fractured Reservoirs: Part 1. The Effect of Solvent Injection Rate , 2018 .
[26] Mingzhen Wei,et al. IOR Methods in Unconventional Reservoirs of North America: Comprehensive Review , 2017 .
[27] Jungho Baek,et al. Do oil prices really matter to US shale oil production? , 2017 .
[28] J. Sheng,et al. Gas Selection for Huff-n-Puff EOR in Shale Oil Reservoirs Based upon Experimental and Numerical Study , 2017 .
[29] Charles D. Gorecki,et al. Measured Crude Oil MMPs with Pure and Mixed CO 2 , Methane, and Ethane, and Their Relevance to Enhanced Oil Recovery from Middle Bakken and Bakken Shales , 2017 .
[30] Charles D. Gorecki,et al. Rapid and Simple Capillary-Rise/Vanishing Interfacial Tension Method To Determine Crude Oil Minimum Miscibility Pressure: Pure and Mixed CO2, Methane, and Ethane , 2016 .
[31] H. Kazemi,et al. Rock Characterization in Unconventional Reservoirs: A Comparative Study of Bakken, Eagle Ford, and Niobrara Formations , 2016 .
[32] Tadesse Weldu Teklu,et al. Enhanced Oil Recovery in Liquid-Rich Shale Reservoirs: Laboratory to Field , 2015 .
[33] D. Spain,et al. Advanced Petrophysical, Geological, Geophysical and Geomechanical Reservoir Characterization - Key to the Successful Implementation of a Geo-Engineered Completion Optimization Program in the Eagle Ford Shale , 2015 .
[34] J. Sheng. Enhanced oil recovery in shale reservoirs by gas injection , 2015 .
[35] M. Watson,et al. Compositional Modeling of EOR Process in Stimulated Shale Oil Reservoirs by Cyclic Gas Injection , 2014 .
[36] Charles D. Gorecki,et al. Hydrocarbon Mobilization Mechanisms Using CO2 in an Unconventional Oil Play , 2014 .
[37] R. Johns,et al. Multiple-Mixing-Cell Method for MMP Calculations , 2011 .
[38] Yongan Gu,et al. Oil Recovery and Permeability Reduction of a Tight Sandstone Reservoir in Immiscible and Miscible CO2 Flooding Processes , 2011 .
[39] A. Kovscek,et al. Experimental Investigation of Oil Recovery From Siliceous Shale by Miscible CO 2 Injection , 2010 .
[40] Habib Menouar,et al. Carbon Dioxide (CO2) Miscible Flooding in Tight Oil Reservoirs: A Case Study , 2009 .
[41] Ali Danesh,et al. Microscopic Mechanisms of Oil Recovery By Near-Miscible Gas Injection , 2008 .
[42] A. Kovscek,et al. Experimental Investigation of Oil Recovery From Siliceous Shale by CO2 Injection , 2008 .
[43] R. Johns,et al. Multiple Mixing-Cell Method for MMP Calculations , 2008 .
[44] B. Tohidi,et al. CO2 Eor and Storage in Oil Reservoir , 2005 .
[45] Dandina Rao,et al. Gas Injection EOR- A New Meaning in the New Millennium , 2001 .