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Numerical simulations of soot aggregation in premixed laminar flames |
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| Authors: | Neal Morgan Michael Balthasar Michael Frenklach Pablo Mitchell |
| Institution: | a Department of Chemical Engineering, University of Cambridge, Pembroke street, Cambridge CB2 3RA, UK b Volvo Technology Corporation, Department 6180, CTP, Sven Hultins Gata 9A, SE-412 88 Gothenburg, Sweden c University of California at Berkeley, CA 94720-1740, USA d Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA |
| Abstract: | In this paper we make use of a detailed particle model and stochastic numerical methods to simulate the particle size distributions of soot particles formed in laminar premixed flames. The model is able to capture the evolution of mass and surface area along with the full structural detail of the particles. The model is validated against previous models for consistency and then used to simulate flames with bimodal and unimodal soot particle distributions. The change in morphology between the particles from these two types of flames provides further evidence of the interplay among nucleation, coagulation, and surface rates. The results confirm the previously proposed role of the strength of the particle nucleation source in defining the instant of transition from coalescent to fractal growth of soot particles. |
| Keywords: | Soot Laminar premixed flames Structural evolution Stochastic modelling |
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