Detailed modeling of soot particle nucleation and growth
Author:
Publisher
Elsevier BV
Reference41 articles.
1. Complex Chemical Reaction Systems, Mathematical Modelling and Simulation;Frenklach,1987
2. Comment on the proposed role of spheroidal carbon clusters in soot formation
3. Detailed Modeling of Soot Particle Nucleation and Growth;Frenklach,1988
4. Investigation of the Formation of High Molecular Hydrocarbons and Soot in Premixed Hydrocarbon-Oxygen Flames
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