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Hydrate growth in granular materials: Implication to hydrate bearing sediments
Tae Sup Yun, Carlos C. Santamarina
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
Overview
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Dive into the research topics of 'Hydrate growth in granular materials: Implication to hydrate bearing sediments'. Together they form a unique fingerprint.
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Engineering
Surface Coating
100%
Heterogeneous Nucleation
100%
Homogeneous Nucleation
66%
Pore Space
66%
Led Surface
33%
Tension Surface
33%
Spatial Distribution
33%
Mass Transfer
33%
Limitations
33%
Heat Transfer
33%
Keyphrases
Hydrate Growth
100%
Grain Connectivity
50%
Hydration Structure
50%
Hydrate Cluster
50%
Connectivity Rate
25%
Grain Mass
25%
Growth Habit
25%
Mass Transport Limitation
25%
Isolated nuclei
25%
Heat Transport Limitations
25%
Cubic Packing
25%
Material Science
Nucleation
100%
Granular Material
100%
Surface Coating
50%
Density
50%
Volume Fraction
33%
Surface Tension
16%
Chemical Engineering
Mass Transfer
100%