EGEL
Energy GeoEngineering Laboratory

Energy geotechnology: Implications of mixed fluid conditions

Energy geotechnology: Implications of mixed fluid conditions

​Santamarina, J. C. and Jang, J. (2010). "Energy geotechnology: Implications of mixed fluid conditions." 5th International Conference on Unsaturated Soils, Sep. 6-8, Barcelona, Spain
J. Carlos Santamarina and Jaewon Jang
xx
2010
​Multi phase fluids are common in energy-related geotechnical problems, including gaswater, gas-oil, ice-water, hydrate-water, and oil-water fluid conditions. The generalization of classical unsaturated soil mechanics concepts to energy geotechnology requires physical understanding of surface
tension, contact angle, capillary pressure, solubility and nucleation. Eventually, these pore-level processes affect the granular skeleton. Together, pore and particle-scale interactions upscale through the sediment structure to affect its macroscale response. Possible emergent phenomena  include fluid percolation, residual saturation and recovery efficiency; fluid driven fractures, lenses, fingering and pipe formation; bubble migration and bottom blow up.