Invariant forms of dissolution fingers
ORAL
Abstract
Dissolution of fractured and porous media introduces a positive feedback between fluid flow and reactant transport, leading to the emergence of pronounced, finger-like channels. We investigate the formation of these structures using a microfluidic Hele-Shaw cell with a soluble bottom. Our experiments show that the shape of dissolution fingers is invariant and reveals itself over time as the fingers extend into the system. By combining reactive-transport theory and conformal mapping techniques we derive these invariant forms. We relate these results to natural dissolution fingers in karst landscapes, and illustrate how to determine the groundwater flow rate responsible for their formation based on the finger shape.
*This work was supported by the National Science Centre (NCN; Poland) under CEUS-UNISONO grant 2020/02/Y/ST3/00121 and grant 2023/49/N/ST3/03502. The work of AL was supported by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences, Geosciences program under Award Number DE-SC0018676.
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Publication: S. Żukowski, S. Magni, F. Osselin, F. Dutka, M. Cooper, A. J. C. Ladd, and P. Szymczak, "Invariant Forms of Dissolution Fingers", Physical Review Letters, vol. 134, no. 9, p. 094101, Mar. 2025, doi: 10.1103/PhysRevLett.134.094101.
Presenters
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Stanisław Żukowski
- University of Warsaw