Temporal Development of Backward Erosion Piping in a Large-Scale Experiment
J.C. Pol (TU Delft - Hydraulic Structures and Flood Risk, HKV Lijn in Water)
W. Kanning (TU Delft - Hydraulic Structures and Flood Risk, Deltares)
Sebastiaan N. Jonkman (TU Delft - Hydraulic Structures and Flood Risk)
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Abstract
This paper presents a large-scale backward erosion piping experiment aimed at studying the erosion rate. This temporal aspect of piping complements previous research that focused on the critical head. To study the progression rate in realistic conditions, an experiment was carried out on a 1.8 m high levee with a cohesive blanket on a sandy foundation. The pipe was guided along a row of pore pressure transducers in order to measure its temporal development. Pipe development in space and time was successfully derived from pore pressure changes, showing an average progression rate of 8 m/day during the progressive erosion phase. The results show a relation between upstream gradient and progression rate. Furthermore, analysis of the eroded sand mass shows a relatively large pipe volume compared to existing lab tests, and an approximately linear relation between pipe length and volume. The results and insights from this study can be used to validate and improve transient piping models, leading to more accurate dam and levee safety assessments.