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Kinetics of near-equilibrium calcite precipitation at 100°C: An evaluation of elementary reaction-based and affinity-based rate laws
Ryoji Shiraki,
Susan L. Brantley
Geosciences
Institute for Computational and Data Sciences (ICDS)
Materials Research Institute (MRI)
Research output
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Article
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peer-review
118
Scopus citations
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Dive into the research topics of 'Kinetics of near-equilibrium calcite precipitation at 100°C: An evaluation of elementary reaction-based and affinity-based rate laws'. Together they form a unique fingerprint.
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Keyphrases
Rate Law
100%
Reaction-based
100%
Near-equilibrium
100%
Calcite Precipitation
100%
Elementary Reaction
100%
Spiral Growth
100%
Growth Mechanism
50%
Adsorption
50%
Mechanistic Model
50%
Precipitation Rate
50%
Surface nucleation
50%
Physical Mechanism
25%
Controlled Growth
25%
Adsorption Mechanism
25%
Rate Limiting
25%
Linear Dependence
25%
Physical Development
25%
Growth Regimes
25%
Total Pressure
25%
Carbonic Acid
25%
Rate-based Model
25%
Growth Equation
25%
Surface Adsorption
25%
Reaction Control
25%
Two-dimensional nucleation
25%
Screw Dislocation
25%
Surface Control
25%
Continuous Stirred Tank Reactor
25%
Engineering
Elementary Reaction
100%
Mechanistic Model
50%
Growth Mechanism
25%
Two Dimensional
25%
Rate Data
25%
Rate Model
25%
Growth Equation
25%
Linear Dependence
25%
Stirred Tank
25%
Chemical Engineering
Calcite
100%
Material Science
Nucleation
75%