Understanding of rock-fluid and compositional interactions, based on learnings from this session, can lead to more robust and, perhaps, lower cost development plans.  The subjects discussed in this session encompass minimum saturation pressures for CO2 nanobubbles; an innovative relative permeability inversion technique aimed at advancing mobility control analysis and prediction; the interaction between flow dynamics and geochemical processes for comprehensive sulfate risk assessment; findings from radial-distance wireline formation fluid sampling to determine the sources of anomalous hydrogen sulfide measurements; the influence of salts on the dielectric properties of intricate pore structures; and a novel approach for forecasting relative permeability across varying wettability conditions.