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• W2327774675 abstract "A hybrid finite element volume FEV method is further extended to simulate the formation and full oxidation of carbonaceous nanoand microparticles in a heavily sooting ethylene turbulent non-premixed flame. Regarding the aerosol dynamics and chemistry, we use the two-equation soot model, based on the acetylene-route nucleation, and take into account the soot oxidation via oxygen molecules. Encountering with a full soot oxidation phenomenon, we need to respect the full physics of flow in our simulations. So, we use the physical upwinding influence scheme PIS to approximate the soot mass fraction fluxes at all cell faces very accurately. For a more complete reaction consideration, we implement a detailed kinetics scheme consisting of 111 chemical species and 1835 chemical reactions, while the flamelet model is utilized for more accurate combustion modeling. For turbulence closure, we employ the two-equation standard κ-e turbulence model incorporated with additional wall functions. The turbulence-chemistry interaction is taken into account in the pre-computed flamelets using the presumed shape probability density functions PDFs. The radiation effects of the most important radiating species and soot are taken into account supposing an optically thin limit. The governing equations are solved thorough two sequential global stiffness matrices. Comparing with the experimental measurements, the current solution successfully predicts the temperature field and the volume fraction distribution of carbonaceous nanoand microparticles very reliably." @default.
• W2327774675 created "2016-06-24" @default.
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• W2327774675 date "2015-01-03" @default.
• W2327774675 modified "2023-09-24" @default.
• W2327774675 title "Numerical Study on Surface Oxidation of Carbonaceous Nano- and Micro- Particles in a Heavily Sooting Ethylene Turbulent Jet Flame" @default.
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• W2327774675 doi "https://doi.org/10.2514/6.2015-2084" @default.
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