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A numerical study of ignition in the supersonic hydrogen/air laminar mixing layer
M. Nishioka,
Chung King Law
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Princeton Materials Institute
Research output
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Contribution to journal
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Article
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peer-review
32
Scopus citations
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Dive into the research topics of 'A numerical study of ignition in the supersonic hydrogen/air laminar mixing layer'. Together they form a unique fingerprint.
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Physics & Astronomy
laminar mixing
100%
ignition
55%
hydrogen
35%
air
34%
crossovers
11%
supersonic combustion
10%
heating
8%
Prandtl number
7%
engines
6%
unity
5%
explosions
5%
chemical reactions
5%
heat
4%
oxygen
3%
kinetics
3%
temperature
3%
Engineering & Materials Science
Ignition
52%
Hydrogen
46%
Air
32%
Asymptotic analysis
17%
Hot Temperature
12%
Temperature
10%
Heating
9%
Prandtl number
7%
Chemical reactions
6%
Explosions
6%
Oxygen
5%
Engines
4%
Feedback
4%
Chemical Compounds
Prandtl Number
35%
Explosion Limit
32%
Combustion Engine
31%
Hydrogen
29%
Thermal Runaway
29%
Heat
14%
Dioxygen
9%