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Application of Sensitivity Analysis to Premixed Hydrogen-Air Flames
M. D. Smooke
,
H. Rabitz
, Y. Reuven
, F. L. Dryer
Chemistry
Princeton Language and Intelligence (PLI)
Princeton Materials Institute
Research output
:
Contribution to journal
›
Article
›
peer-review
39
Scopus citations
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Keyphrases
Adiabatic Flame
33%
Atmospheric Pressure
33%
Complicated System
33%
First-order
33%
Flame Speed
33%
Flame Thickness
33%
Freely Propagating
33%
Jacobian Matrix
33%
Kinetic Processes
33%
Newton's Method
33%
Nonlinear Two-point Boundary-value Problem
33%
Order Sensitivity
33%
Premixed Hydrogen-air Flame
100%
Reaction Rate
33%
Self-similarity
33%
Sensitivity Analysis
100%
Sensitivity Coefficient
100%
Similarity Relation
33%
Species Fluxes
33%
Species Profiles
33%
Transport Coefficients
33%
Transport Processes
33%
Engineering
Atmospheric Pressure
33%
Boundary Value
33%
Illustrates
33%
Jacobian matrix
33%
Newton's Method
33%
Sensitivity Coefficient
100%
Similarities
33%
Transport Process
33%