Detailed Record
EFRC-MUSE: Multi-Scale Fluid-Solid Interactions in Architected and Natural Materials
| Abstract | Phase interactions and fluid properties in geological and other environments are critical in applications ranging from hydrogen production and geologic storage and recovery, carbon dioxide storage and sequestration, and the sustainable use of water resources. The four goals of EFRC-MUSE: Multi-Scale Fluid-Solid Interactions in Architected and Natural Materials were based on the priority directions articulated in the Basic Research Needs documents, and the scientific needs in nanoscience. 1. Develop a fundamental understanding of confinement and surface interactions in mesoscale media with nanometer-sized pores on the phase behavior, thermodynamic and multiphase flow properties of multicomponent fluid mixtures. 2. Examine the impact of mineralogy and material heterogeneity on mechanical properties to better understand chemo-mechanical interactions in material failure. 3. Determine in-operando cross-scale structural and nanostructural material properties with fluids in confinement and flow under realistic condi |
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| Authors |
Milind Deo  , Michael H. Bartl , Darryl P. Butt , Greeshma Gadikota , Michael P. Hoepfner , John Kaszuba , Jules J. Magda , Swomitra K. Mohanty , John McLennan , Jan D. Miller , Jiaoyan Li , Jiaqi Jin , Subhash H. Risbud , Brian McPherson , Bryony Richards , Yidong Xia , Adri C. T. van Duin , Ilya Zharov
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| Journal Info | | |
| Publication Date | 11/11/2024 |
| ISSN | |
Type |
report |
| Open Access |
closed
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| DOI | https://doi.org/10.2172/2476669 |
| Keywords |
Carbon fibers (Score: 0.42407796) |