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Flame propagation through three-phase methane-hydrate particles
Yuval Dagan,
Tali Bar-Kohany
*
*
Corresponding author for this work
School of Mechanical Engineering
Massachusetts Institute of Technology
University of Maryland, College Park
Research output
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Contribution to journal
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Article
›
peer-review
30
Scopus citations
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Keyphrases
Methane Clathrate
100%
Flame Propagation
100%
Hydrate Particles
100%
Methane
25%
Flame Velocity
25%
Flame Location
25%
Flame Temperature
25%
Mass Ratio
12%
Ratio Values
12%
Uniformly Distributed
12%
Mathematical Solution
12%
Oxidizer
12%
Energy Balance
12%
Inert Gas
12%
Symmetric Model
12%
Premixed
12%
Evaporation Model
12%
Evaporation Front
12%
Homogeneous Mixture
12%
Water Masses
12%
Particle Loading
12%
Initial Transient
12%
Laminar Flames
12%
Spray Combustion
12%
Laminar Combustion
12%
Evaporation Process
12%
Evaporation Characteristics
12%
Particle Depletion
12%
Fast Evaporation
12%
Engineering
Methane
100%
Flame Propagation
100%
Phase Particle
20%
Building Block
10%
Transients
10%
Energy Engineering
10%
Mass Ratio
10%
One Dimensional
10%
Oxidizer
10%
Flame Temperature
10%
Flame Velocity
10%
Spray Combustion
10%
Chemical Engineering
Energy Balance
100%
Spray Combustion
100%