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W2894040877 abstract "A reduced n-heptane-n-butylbenzene-PAH mechanism consisting of 111 species and 542 reactions was developed for diesel engine combustion and soot modeling. The reduced mechanism was formulated based on a detailed n-butylbenzene (BBZ) mechanism and a published reduced n-heptane-PAH mechanism. The reduced BBZ sub-mechanism was constructed using the directed relation graph with error propagation, sensitivity analysis, reaction pathway analysis and rate of production analysis methods. An evaluation system of the most sensitive reactions was proposed and sensitivity coefficient maps of ignition delay were depicted for the optimization of the proposed mechanism. The present mechanism was extensively validated with experimental results of ignition delay in shock tubes and rapid compression machines, species concentration in premixed flames and jet stirred reactors, laminar flame speed, and with new direct injection compression ignition engine combustion and emission data. The results of prediction are in good agreement with experiments and suggest that the proposed mechanism can be applied for combustion and soot predictions in engines. The soot particle size distribution of BRF30 (30%BBZ+70%n-heptane in volume) is closer to D100 (real diesel) than TRF20 (20%toluene+80%n-heptane in volume). It is indicated that BBZ may be more appropriate as the representative of aromatic compounds than toluene in diesel surrogate fuels." @default.
W2894040877 created "2018-10-05" @default.
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W2894040877 date "2018-12-01" @default.
W2894040877 modified "2023-10-14" @default.
W2894040877 title "Development of a reduced n-heptane-n-butylbenzene-polycyclic aromatic hydrocarbon (PAH) mechanism for engine combustion simulation and soot prediction" @default.
W2894040877 cites W1658772563 @default.
W2894040877 cites W1921935873 @default.
W2894040877 cites W1971407808 @default.
W2894040877 cites W1976132390 @default.
W2894040877 cites W1976833865 @default.
W2894040877 cites W1979978248 @default.
W2894040877 cites W1981254574 @default.
W2894040877 cites W1984920877 @default.
W2894040877 cites W1986900171 @default.
W2894040877 cites W1987051884 @default.
W2894040877 cites W1987314004 @default.
W2894040877 cites W1987948383 @default.
W2894040877 cites W1989977229 @default.
W2894040877 cites W1991292943 @default.
W2894040877 cites W1993054233 @default.
W2894040877 cites W1995578129 @default.
W2894040877 cites W2000855894 @default.
W2894040877 cites W2002394088 @default.
W2894040877 cites W2003007115 @default.
W2894040877 cites W2004208261 @default.
W2894040877 cites W2007149509 @default.
W2894040877 cites W2011345796 @default.
W2894040877 cites W2012952975 @default.
W2894040877 cites W2014215216 @default.
W2894040877 cites W2015389618 @default.
W2894040877 cites W2015501241 @default.
W2894040877 cites W2015901825 @default.
W2894040877 cites W2026139312 @default.
W2894040877 cites W2026633216 @default.
W2894040877 cites W2027232531 @default.
W2894040877 cites W2027994556 @default.
W2894040877 cites W2028899468 @default.
W2894040877 cites W2030103444 @default.
W2894040877 cites W2035763154 @default.
W2894040877 cites W2039669625 @default.
W2894040877 cites W2043309686 @default.
W2894040877 cites W2044788830 @default.
W2894040877 cites W2046033679 @default.
W2894040877 cites W2048253441 @default.
W2894040877 cites W2048344933 @default.
W2894040877 cites W2051322148 @default.
W2894040877 cites W2054713895 @default.
W2894040877 cites W2054808642 @default.
W2894040877 cites W2056049232 @default.
W2894040877 cites W2057634105 @default.
W2894040877 cites W2061689544 @default.
W2894040877 cites W2070029317 @default.
W2894040877 cites W2071424933 @default.
W2894040877 cites W2073677519 @default.
W2894040877 cites W2073805401 @default.
W2894040877 cites W2087636317 @default.
W2894040877 cites W2094988546 @default.
W2894040877 cites W2096407655 @default.
W2894040877 cites W2104571469 @default.
W2894040877 cites W2116821045 @default.
W2894040877 cites W2123132721 @default.
W2894040877 cites W2135060384 @default.
W2894040877 cites W2292197090 @default.
W2894040877 cites W2331906244 @default.
W2894040877 cites W2335728063 @default.
W2894040877 cites W2342689298 @default.
W2894040877 cites W2460923937 @default.
W2894040877 cites W2475406746 @default.
W2894040877 cites W2793173803 @default.
W2894040877 doi "https://doi.org/10.1016/j.energy.2018.09.162" @default.
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