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W2000459161 endingPage "863" @default.
W2000459161 startingPage "848" @default.
W2000459161 abstract "A fully-coupled soot formation model is developed to predict the concentration, size, and aggregate structure of soot particles in the atmospheric pressure laminar coflow diffusion flames of a three-component surrogate for Jet A-1, a three-component surrogate for a Fischer–Tropsch Synthetic Paraffinic Kerosene (SPK), and n-decane. To model the chemical structure of the flames and soot precursor formation, a detailed chemical kinetic mechanism for fuel oxidation, with 2185 species and 8217 reactions, is reduced and combined with a Polycyclic Aromatic Hydrocarbon (PAH) formation and growth scheme. The mechanism is coupled to a highly detailed sectional particle dynamics model that predicts the volume fraction, structure, and size of soot particles by considering PAH-based nucleation, surface growth, PAH surface condensation, aggregation, surface oxidation, fragmentation, thermophoresis, and radiation. The simulation results are validated by comparing against experimental data measured for the flames of pre-vaporized fuels. The objectives of the present effort are to more accurately simulate the physical soot formation processes and to improve the predictions of our previously published jet fuel soot formation models, particularly for the size and aggregate structure of soot particles. To this end, the following improvements are considered: (1) addition of particle coalescence submodels to account for the loss of surface area, reduction of the number of primary particles, and increase of primary particle diameters upon collision, (2) consideration of a larger PAH molecule (benzopyrene instead of pyrene) for nucleation and surface growth to enhance the agreement between the soot model and the measured chemical composition of soot particles, and (3) implementation of a dimerization efficiency in the soot inception submodel to account for the collisions between PAH molecules that do not lead to dimerization. The results of two different particle coalescence submodels show that this process is too slow to account for the growth of primary particles, mainly because of the limited rate of particle collisions. Soot volume fraction predictions on the wings and at lower flame heights are considerably improved by using benzopyrene, due to the different distribution of the soot forming PAH molecule in the flame. The computed number of primary particles per aggregate and the diameters of primary particles agree very well with the experimentally measured values after implementing the dimerization efficiency for PAH collisions, because of the reduced rate of soot inception compared to growth by PAH condensation. Concentrations of major gaseous species and flame temperatures are also well predicted by the model. The underprediction of soot concentration on the flame centerline, observed in previous studies, still exists despite minor improvements." @default.
W2000459161 created "2016-06-24" @default.
W2000459161 creator A5000363443 @default.
W2000459161 creator A5001171533 @default.
W2000459161 creator A5022172373 @default.
W2000459161 creator A5071771844 @default.
W2000459161 date "2014-03-01" @default.
W2000459161 modified "2023-10-02" @default.
W2000459161 title "Experimental investigation and detailed modeling of soot aggregate formation and size distribution in laminar coflow diffusion flames of Jet A-1, a synthetic kerosene, and n-decane" @default.
W2000459161 cites W1506526940 @default.
W2000459161 cites W1966281189 @default.
W2000459161 cites W1971525596 @default.
W2000459161 cites W1973117686 @default.
W2000459161 cites W1975483125 @default.
W2000459161 cites W1978423440 @default.
W2000459161 cites W1979388559 @default.
W2000459161 cites W1983422860 @default.
W2000459161 cites W1984559259 @default.
W2000459161 cites W1988742929 @default.
W2000459161 cites W1994995185 @default.
W2000459161 cites W1996335954 @default.
W2000459161 cites W1996781279 @default.
W2000459161 cites W2001647634 @default.
W2000459161 cites W2003172704 @default.
W2000459161 cites W2004397299 @default.
W2000459161 cites W2005397166 @default.
W2000459161 cites W2006363887 @default.
W2000459161 cites W2006533115 @default.
W2000459161 cites W2008183064 @default.
W2000459161 cites W2008928996 @default.
W2000459161 cites W2009011345 @default.
W2000459161 cites W2009572727 @default.
W2000459161 cites W2010121068 @default.
W2000459161 cites W2010540699 @default.
W2000459161 cites W2012361498 @default.
W2000459161 cites W2014688420 @default.
W2000459161 cites W2017547201 @default.
W2000459161 cites W2020674900 @default.
W2000459161 cites W2021278724 @default.
W2000459161 cites W2022383633 @default.
W2000459161 cites W2026490352 @default.
W2000459161 cites W2026797692 @default.
W2000459161 cites W2028999185 @default.
W2000459161 cites W2031981779 @default.
W2000459161 cites W2032605103 @default.
W2000459161 cites W2038135199 @default.
W2000459161 cites W2041375561 @default.
W2000459161 cites W2043156720 @default.
W2000459161 cites W2043273745 @default.
W2000459161 cites W2043329689 @default.
W2000459161 cites W2046511330 @default.
W2000459161 cites W2047521014 @default.
W2000459161 cites W2049527267 @default.
W2000459161 cites W2050693456 @default.
W2000459161 cites W2050795399 @default.
W2000459161 cites W2051114929 @default.
W2000459161 cites W2052759806 @default.
W2000459161 cites W2053805370 @default.
W2000459161 cites W2054050839 @default.
W2000459161 cites W2055215122 @default.
W2000459161 cites W2056455786 @default.
W2000459161 cites W2057634105 @default.
W2000459161 cites W2060735164 @default.
W2000459161 cites W2060832570 @default.
W2000459161 cites W2061099521 @default.
W2000459161 cites W2061963040 @default.
W2000459161 cites W2065177324 @default.
W2000459161 cites W2066455914 @default.
W2000459161 cites W2067502026 @default.
W2000459161 cites W2068007260 @default.
W2000459161 cites W2070961819 @default.
W2000459161 cites W2072923582 @default.
W2000459161 cites W2075230606 @default.
W2000459161 cites W2076004235 @default.
W2000459161 cites W2077300886 @default.
W2000459161 cites W2078357151 @default.
W2000459161 cites W2081707730 @default.
W2000459161 cites W2083758152 @default.
W2000459161 cites W2085079835 @default.
W2000459161 cites W2085164220 @default.
W2000459161 cites W2086178950 @default.
W2000459161 cites W2087734883 @default.
W2000459161 cites W2091809698 @default.
W2000459161 cites W2094012138 @default.
W2000459161 cites W2104571469 @default.
W2000459161 cites W2111807168 @default.
W2000459161 cites W2126982668 @default.
W2000459161 cites W2133113340 @default.
W2000459161 cites W2137969661 @default.
W2000459161 cites W2143894500 @default.
W2000459161 cites W2155308296 @default.
W2000459161 cites W2155532339 @default.
W2000459161 cites W2162059141 @default.
W2000459161 cites W2170934473 @default.
W2000459161 cites W2171641626 @default.
W2000459161 cites W2171996302 @default.
W2000459161 cites W2172277375 @default.
W2000459161 cites W2321218138 @default.