Computational Petrophysics - Integrating Multiscale Modeling and Synchrotron Techniques for CO2 Storage and Planetary Sciences
ICTP-SAIFR via YouTube
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Explore computational petrophysics through this 49-minute conference talk that demonstrates the integration of multiscale modeling techniques with synchrotron methods for advancing CO2 storage research and planetary science applications. Learn how cutting-edge computational approaches can be combined with high-energy X-ray techniques to understand rock properties and behavior across different scales, from microscopic mineral structures to macroscopic geological formations. Discover the practical applications of these integrated methodologies in addressing critical challenges in carbon sequestration and understanding planetary interior processes. Gain insights into how synchrotron-based experimental data can inform and validate computational models used in petrophysical analysis, providing a comprehensive understanding of rock-fluid interactions essential for both environmental and planetary science research.
Syllabus
Caetano Miranda: Computational Petrophysics: Integrating Multiscale Modeling and Synchrotron...
Taught by
ICTP-SAIFR