From Diagnostics to Dynamics: Reservoir Analysis in Unconventional Systems
Wednesday, 3 January
Technical Session
This session presents physics-based interpretation and modeling approaches for unconventional and fractured reservoirs, covering flow diagnostics, fracture network characterization, thermal and multiphase processes, and recovery mechanisms. The papers highlight advances in rate-transient analysis, pressure and tracer interpretation, DFN modeling, temperature-based flow quantification, and stimulation strategies, with emphasis on reducing uncertainty and improving field-scale prediction.
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AlternateA Systematic Diffusive Time Of Flight Based Multi-resolution Model Of Unconventional Reservoirs With Field-scale Application
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AlternateBeyond Straight Lines: Hidden Interpretation Risks In Rate-transient Analysis Diagnostic Plots For Unconventional Reservoirs
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AlternateWater Saturation Effects On Cyclic Gas Injection In Shale Oil Reserviors
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AlternateA Physics-Based Pressure And Tracer Interpretation Method For Stimulated Fracture Networks
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AlternateDynamically Validated Full-Field DFN Modeling In A Naturally Fractured Reservoir Without 3D Seismic Data
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AlternateIntegrated Temperature Modelling For Flow Quantification And Acoustic Gas Index Validation In High-temperature Naturally Fractured Reservoirs
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AlternateA Multi-physics Simulation Framework For CO2Huff-n-puff In Shale Oil Reservoirs: Coupling Stress-dependent Maxwell-Stefan Diffusion And Nanopore Confinement
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Alternate1) Modeling Of Reactive Transport Process For Acid Fracturing Optimization
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AlternateSaturation-dependent Coupled Capacitance-resistance Models For History Matching Production And Pressure Data In Reservoirs With Natural Water Influx