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Analysis of thermal ignition in supersonic flat-plate boundary layers
H. G. Im,
J. K. Bechtold
, C. K. Law
Research output
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Contribution to journal
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Article
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peer-review
8
Scopus citations
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Dive into the research topics of 'Analysis of thermal ignition in supersonic flat-plate boundary layers'. Together they form a unique fingerprint.
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Keyphrases
Ignition
100%
Thermal Ignition
100%
Flat Plate Boundary Layer
100%
Direct Integration
50%
Ignition Distance
50%
Viscous Heating
50%
Physical Parameters
25%
Residence Time
25%
Asymptotic Analysis
25%
Heat Transfer
25%
Mach number
25%
Frozen Zone
25%
Hot Wall
25%
Adiabatic Wall
25%
Non-similar
25%
Free Stream
25%
Wall Analysis
25%
Supersonic Boundary Layer
25%
Boundary Layer Flow
25%
Heating Transfer
25%
Combustible Mixture
25%
Reaction Region
25%
Flat Plate
25%
Flow Structure
25%
Frozen Temperature
25%
Activation Energy Asymptotics
25%
Isothermal Wall
25%
Ignition Delay Time
25%
Engineering
Ignition
100%
Flat Plate Boundary Layer
100%
Numerical Integration
28%
Boundary Layer
14%
Similarities
14%
Physical Parameter
14%
Isothermal
14%
Activation Energy
14%
Ignition Delay
14%
Layer Flow
14%
Free-Stream Mach Number
14%
Flat Plate
14%
Flow Structure
14%
Explicit Expression
14%