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Explore laboratory-scale modeling approaches for understanding hydro-fracture processes in this 42-minute conference talk from the Kavli Institute for Theoretical Physics. Learn how controlled experimental setups can replicate and analyze the complex mechanisms of fluid-driven fracturing that occur in natural geological systems. Discover the methodologies used to create scaled-down versions of hydro-fracture phenomena, examining how fluids interact with solid materials under various pressure and stress conditions. Understand the experimental techniques employed to visualize crack propagation, fluid flow patterns, and the coupling between mechanical deformation and fluid dynamics. Gain insights into how these laboratory models help bridge the gap between theoretical predictions and real-world geological processes, providing valuable data for understanding everything from natural fracture networks to engineered fracturing operations. Examine the challenges and limitations of scaling effects when translating laboratory observations to field-scale applications, and explore how these experimental approaches contribute to broader understanding of soft matter physics in Earth systems.
Syllabus
Lab-scale models for hydro-fracture | David Weitz (Harvard)
Taught by
Kavli Institute for Theoretical Physics