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Complex CSP for chemistry reduction and analysis
Tianfeng Lu
,
Yiguang Ju
,
Chung K. Law
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Research output
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Contribution to conference
›
Paper
›
peer-review
1
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Keyphrases
Characteristic Timescales
66%
Chemical Mechanism
66%
Chemical Reaction Mechanism
33%
Chemical Species
33%
Chemistry Analysis
100%
Chemistry Reduction
100%
Complex Chemicals
33%
Computational Singular Perturbation
100%
Detailed Chemistry
33%
Eigensystem
33%
Equivalence Ratio
33%
Flame Speed
33%
Flame Structure
33%
Flame Temperature
33%
Four-step
33%
H2-air
33%
Importance Index
33%
Independent Mode
33%
Oscillatory Modes
66%
Perfectly Stirred Reactor
33%
Premixed Flame
33%
PRESENT Algorithm
66%
Pressure Ratio
33%
Quasi-steady State
33%
Reduced Chemistry
33%
Reduced Mechanism
100%
Singular Perturbation Theory
33%
Species Change
33%
Ten Steps
33%
Engineering
Characteristic Time
100%
Chemical Mechanism
100%
Chemical Specie
50%
Equivalence Ratio
50%
Good Agreement
50%
Importance Index
50%
One Dimensional
50%
Oscillatory
100%
Premixed Flame
50%
Pressure Ratio
50%
Quasi Steady State
50%