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Unified models for water permeability in hydrate-bearing sandy soil considering pore morphology evolution presents a comprehensive approach to accurately predict water flow in complex geological formations. By integrating pore morphology evolution into the permeability modeling framework, the research bridges the gap between static soil properties and dynamic hydrate dissociation processes. It accounts for morphological changes such as pore collapse, grain rearrangement, and hydrate reformation, which critically influence water transport. This unified model enhances the understanding of hydrate-bearing sediment behavior, supporting the safe and efficient exploitation of gas hydrates and improving risk assessment in geotechnical engineering and energy resource development.
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#HydrateBearingSoil #WaterPermeability #PoreMorphology #GeotechnicalEngineering #GasHydrates #PermeabilityModel #SoilMechanics #HydrateDissociation #SedimentTransport #SubsurfaceFlow #EnergyResources #SoilHydraulics #PorousMedia #SoilModeling #HydrateGeomechanics
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