Soot and NOx Modeling

Adrian Sabau

doi:10.4028/www.scientific.net/AMM.659.456

Paper Titles

Numerical Study of the Efficiency of Flat Plate Solar Collectors in Different External Conditions
p.435

Experimental Investigation of Waste Heat Available for a Hybrid Micro-Cogeneration Group Involving a Diesel Engine Electric Generator and Organic Rankine Cycle
p.440

Study of Height Influence of Heat Exchanger Tanks on Overall Pressure Drop
p.446

Pressure Injection Influence on the Combustion Process
p.450

Soot and NOx Modeling
p.456

Considerations on Economic Optimization of the Relationship Insulation - Thermal Energy Sources Insurance for Civil Building
p.463

Methodology for Analysis of Energy Efficiency for Residential Buildings Based on the Optimal Cost
p.469

Hydrogen Production by Anaerobic Digestion of Biomass with High Lignocellulose Content - References Selection Procedure
p.475

Ground Temperature Variation around the Horizontal Collectors of a Heat Pump
p.481

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 659Soot and NOx Modeling

Soot and NOx Modeling

Abstract:

This paper presents an advanced version of the original software developed by the author in order to simulate the combustion in the Diesel engines, focusing on simulate soot and NOx formation. Complex kinetic mechanisms are need for realistic modeling. A model derived by systematic reduction of multi-step chemistry is used. This reduction is based on the partial equilibrium assumption of the considered elementary reactions using the skeletal chemistry for n-decan for ignition, combustion and emissions. Subsequently, predictions of heat release rate, as well as NO and soot emissions are compared with experimental data. However, additional effort is required to enhance the fidelity of NO and soot predictions across a wide range

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Periodical:

Applied Mechanics and Materials (Volume 659)

Pages:

456-462

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.659.456

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Online since:

October 2014

Authors:

Adrian Sabau*

Keywords:

Fuel Spray, Kinetic Reaction, NO_x, Soot Formation, Soot Oxidation

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References

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