Particle Nonequilibrium Effects in Mixing and Combustion of Ducted, Particle-Laden Flows PDF Download
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Author: L. Douglas Smoot Publisher: ISBN: Category : Languages : en Pages : 33
Book Description
Development of a model has been previously reported for describing combustion of a particle-laden stream which is mixing with a subsonic secondary stream in a duct. This paper presents an extension of this model to include particle non-equilibrium effects. Particle drag, thermal lag, and particle ignition and combustion effects are considered. A series of parametric calcuations for typical metal-loaded, air-augmented systems, showing effects of particle size, secondary air conditions, and secondary duct pressure on metal combustion efficiency are reported. Influences of low secondary duct pressure are examined. A new turbulent mixing coefficient is used for the computations. (Author).
Author: L. Douglas Smoot Publisher: ISBN: Category : Languages : en Pages : 33
Book Description
Development of a model has been previously reported for describing combustion of a particle-laden stream which is mixing with a subsonic secondary stream in a duct. This paper presents an extension of this model to include particle non-equilibrium effects. Particle drag, thermal lag, and particle ignition and combustion effects are considered. A series of parametric calcuations for typical metal-loaded, air-augmented systems, showing effects of particle size, secondary air conditions, and secondary duct pressure on metal combustion efficiency are reported. Influences of low secondary duct pressure are examined. A new turbulent mixing coefficient is used for the computations. (Author).
Author: L. Douglas Smoot
Author: L. Douglas Smoot
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Author: William Doyle Cranney
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