Measuring pore water velocities and dynamic contact angles at unstable wetting fronts

•A high-speed camera observed gravity-driven unstable finger formation.•At the fingertip, water advances intermittently one pore at a time.•Pore invasions occur at high velocities.•High velocities increase dynamic contact angles.•Greater contact angles reduce the matric potential at the front and cause instability. The imbibition of fluids in porous media has been studied widely. Still, processes of preferential flow under gravity due to instability at the wetting front, crucial in groundwater contamination, have yet to be fully understood. Recent theories using dynamic contact angles could describe unstable flow phenomena but have not been proven experimentally. Therefore, infiltration experiments in small sand-filled chambers were conducted to explore the effect of dynamic contact angles. A high-speed camera recorded pore invasion at the unstable imbibition liquid front. A tensiometer recorded the matric potential. The results show that water moved in milliseconds through a small pore at the wetting front, followed by a stationary period. The maximum observed pore water velocity was 25 cm/s, exceeding the saturated hydraulic conductivity by three orders of magnitude. The relationship between dynamic contact angle and water velocity found by Hoffman in glass tubes could describe which was observed in soils. [Display omitted]