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Volumn 33, Issue 2, 2011, Pages 3023-3030
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Detailed chemistry flamelet modeling of mixed-mode combustion in spark-assisted HCCI engines
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Author keywords
G Equation; Ignition; Multi Zone Model; Spark assisted HCCI; SparkCIMM
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Indexed keywords
AUTO-IGNITION;
AUTO-IGNITION PROCESS;
CHANNEL PROCESS;
COMBUSTION MODEL;
COMBUSTION PRO-CESS;
DETAILED CHEMISTRY;
DIFFUSION COMBUSTION;
FLAME EXTINCTION;
FLAME FRONT;
FLAME KERNEL;
FLAME PROPAGATION;
FLAME SHAPES;
FLAMELET MODELING;
FLAMELET MODELS;
FLAMELETS;
G-EQUATION;
HCCI ENGINE;
HOMOGENEOUS CHARGE COMPRESSION IGNITION ENGINES;
IGNITION DELAYS;
IGNITION MODEL;
LAMINAR BURNING VELOCITY;
LENGTH SCALE;
MIXED MODE;
MULTI-ZONE MODEL;
NEW MODEL;
NON-SPHERICAL;
PHYSICAL COMPLEXITY;
PREPARATION PROCESS;
PRESSURE AND TEMPERATURE;
REACTING MIXTURE;
RESTRIKES;
SCALAR MIXING;
SCALE SEPARATION;
SIMULATION RESULT;
SPARK-ASSISTED HCCI;
SPARKCIMM;
THERMAL RUNAWAYS;
TURBULENT COMBUSTION;
TURBULENT FLAME;
COMPUTER SIMULATION;
ELECTRIC SPARKS;
IGNITION;
INTERNAL COMBUSTION ENGINES;
MIXTURES;
MODELS;
FLAME RESEARCH;
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EID: 79251634818
PISSN: 15407489
EISSN: None
Source Type: Journal
DOI: 10.1016/j.proci.2010.08.005 Document Type: Article |
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Times cited : (36)
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References (17)
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