부산대학교 도서관

Salt playas with their tessellated surface of polygonal salt ridges are beautiful and intriguing, but the scientific community lacks a realistic and physically meaningful model that thoroughly explains their formation. In this work, we investigated the formation phenomena via suitable three-dimensional modelling and simulation of the dynamical processes that are responsible. We employed fracture mechanics, principles of energy minimization, fluid and mass transport in fracture channels and processes of crystallization and self organisation to finally replicate the almost Voronoidal pattern of salt ridges that tessellate salt playas. The model is applicable to playas having different salt compositions, as the effect of the salt diffusion coefficient and critical salinity at supersaturation for a particular ambient condition are factored in. The model closely reproduces the height distribution and geometry of the salt ridges reported in the literature. Further, we prove that the final stable polygonal geometry of the salt playas is an effort towards the total minimization of system energy.
Comment: 25 pages, 6 figures