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Subtopic 1A: Early-Stage Research on Recovery Improvement
Technologies – Technology Readiness Level 2-4
1. All-Digital Sensor System for Distributed Downhole Pressure Monitoring in Unconventional Fields – Clemson University (Clemson, SC) will develop and validate a brand new low-cost, all-digital stress sensing technology for in-situ distributed downhole stress tracking in unconventional oil and herbal gasoline reservoirs. Copious facts as a consequence of tool deployment will enhance the information of reservoir conduct; permit optimized stimulation and seasoned
duction; beautify recovery performance; and enlarge the development of growing unconventional oil and natural fuel beneficial useful resource performs. Once mounted, the machine will fill important statistics gaps to inform choice making and enhance the ultimate recuperation of oil and herbal gas.
DOE Funding: $1,500,000; Non-DOE Funding: $375,000; Total Value: $1,875,000
2. Dynamic Binary Complexes as Super-Adjustable Viscosity Modifiers for Hydraulic Fracturing Fluids – Texas A&M Engineering Experiment Station (College Station, TX) will enhance the productiveness in shale reservoirs with the aid of developing novel viscosifiers referred to as “dynamic binary complex,” or DBCs, with advanced viscosities to be used in hydraulic fracturing fluids. The assignment can even observe homes of DBC-based completely fracturing fluids and interactions of DBCs with generally used proppant. The art work will make contributions to the development of advanced viscosifiers that may be used under extended temperatures, pressures, and salinity to enhance oil and herbal gas healing from unconventional reservoirs.
DOE Funding: $1,470,566; Non-DOE Funding: $369,742; Total Value: $1,840,308
3. Demonstration of Proof of Concept of a Multi-Physics Approach for Near-Real-Time Remote Monitoring of Dynamic Changes in Pressure and Salinity in Hydraulically Fractured network – The academy of Texas at Austin (Austin, TX) will show faraway monitoring of geochemistry and pore pressure, advance the development of electromagnetic imaging gadget, and increase a multi-physics joint inversion package deal for precise prediction of adjustments in go with the float patterns and physiochemical adjustments. This technology will purpose an extra suited information of proppant-filled fracture networks, formation pressure united states, fluid leak-off and invasion, and characterization of engineered systems in actual time, ultimately principal to progressed recuperation of unconventional oil & herbal gas belongings.
DOE Funding: $1,499,989; Non-DOE Funding: $376,662; Total Value: $1,876,651
four. Fully Distributed Acoustic and Magnetic Field Monitoring thru a Single Fiber Line for Optimized Production of Unconventional Resource Plays – Virginia Polytechnic Institute and State University (Blacksburg, VA) will increase disbursed seismic and electromagnetic sensing generation to permit actual-time facture diagnostics, and optimized stimulation and manufacturing. The novel system will provide measurements with assessment, spatial selection and capability no longer but found out with the useful resource of different strategies. Once integrated, the era will represent a step trade in subsurface sensing and imaging talents which can be needed to beautify closing oil & natural fuel recovery from unconventional reservoirs.
DOE Funding: $1,499,999; Non-DOE Funding: $375,000; Total Value: $1,874,999
five. Large-Volume Stimulation of Rock for Greatly Enhanced Fluids Recovery Using Targeted Seismic-Assisted Hydraulic Fracturing – Oklahoma State University Stillwater (Stillwater, OK) will increase a new era for massive-quantity and centered comminution of rock in low permeability formations to beautify oil & natural gasoline restoration from unconventional sources. Comminution is the movement of reducing the particles of a material right into a smaller length. Bulk comminution is predicted to reason a huge growth in permeability, fundamental to stronger recovery factors for subsurface fluids, which include oil and natural gas. The assignment combines an integrated experimental and computational approach to boom and display a modular era that can be without problems carried out within the subject to enhance current-day practices read more :- healthcaresworld