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W2959108872 endingPage "7851" @default.
W2959108872 startingPage "7835" @default.
W2959108872 abstract "The core mechanism is the cornerstone of combustion reaction kinetic models and has a crucial impact on the prediction accuracy of large hydrocarbon combustion mechanisms. At present, there remains no systematic method to compare the effect of different core mechanisms on the combustion mechanisms of large hydrocarbons. In this work, the effects of popular core mechanisms such as AramcoMech1.3, USC Mech II, AramcoMech3.0, and Foundational Fuel Chemistry Model (FFCM-1) on the combustion mechanisms of a large hydrocarbon were compared. Based on these core mechanisms, the low-temperature combustion mechanisms of the large hydrocarbon (taking n-heptane as an example) have been developed. Meanwhile, the detailed numerical simulation and analysis of these mechanisms have been carried out. Concretely, using automatic generation software ReaxGen, coupled with AramcoMech1.3, USC Mech II, AramcoMech3.0, and FFCM-1, the detailed mechanisms named Mechanism-1(AramcoMech1.3), Mechanism-2(USC Mech II), Mechanism-3(AramcoMech3.0), and Mechanism-4(FFCM-1) for low-temperature combustion of n-heptane have been developed. Among them, the Mechanism-2(USC Mech II) can be referred to our previous work (http://www.cnki.com.cn/Article/CJFDTotal-GCRB201411041.htm). These mechanisms were validated by the ignition delay time and concentration profiles of important species. Numerically predicted results show that Mechanism-1(AramcoMech1.3) is in better agreement with available experimental data than those of other mechanisms. Finally, the sensitivity analysis of these mechanisms was carried out to find the key reactions to ignition sensitivity under low-temperature combustion conditions, and to better understand the models’ predicted performance, the differences in reaction pathway analysis of n-heptane were discussed." @default.
W2959108872 created "2019-07-23" @default.
W2959108872 creator A5022384185 @default.
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W2959108872 date "2019-07-09" @default.
W2959108872 modified "2023-09-28" @default.
W2959108872 title "Influence of Different Core Mechanisms on Low-Temperature Combustion Characteristics of Large Hydrocarbon Fuels" @default.
W2959108872 cites W1817671020 @default.
W2959108872 cites W1921935873 @default.
W2959108872 cites W1964499544 @default.
W2959108872 cites W1964643976 @default.
W2959108872 cites W1964923431 @default.
W2959108872 cites W1966303780 @default.
W2959108872 cites W1967862357 @default.
W2959108872 cites W1973674727 @default.
W2959108872 cites W1976132390 @default.
W2959108872 cites W1977513091 @default.
W2959108872 cites W1977945898 @default.
W2959108872 cites W1977976489 @default.
W2959108872 cites W1980470295 @default.
W2959108872 cites W1982946379 @default.
W2959108872 cites W1983160255 @default.
W2959108872 cites W1984606687 @default.
W2959108872 cites W1988557394 @default.
W2959108872 cites W1988781382 @default.
W2959108872 cites W1989372425 @default.
W2959108872 cites W1989918979 @default.
W2959108872 cites W1995872865 @default.
W2959108872 cites W1997389831 @default.
W2959108872 cites W2000085812 @default.
W2959108872 cites W2003725450 @default.
W2959108872 cites W2011084153 @default.
W2959108872 cites W2011733298 @default.
W2959108872 cites W2011866185 @default.
W2959108872 cites W2016187741 @default.
W2959108872 cites W2017743028 @default.
W2959108872 cites W2024384473 @default.
W2959108872 cites W2025803130 @default.
W2959108872 cites W2029704760 @default.
W2959108872 cites W2031109076 @default.
W2959108872 cites W2031981779 @default.
W2959108872 cites W2033351178 @default.
W2959108872 cites W2040585761 @default.
W2959108872 cites W2041818327 @default.
W2959108872 cites W2046424614 @default.
W2959108872 cites W2048207947 @default.
W2959108872 cites W2055929787 @default.
W2959108872 cites W2056417840 @default.
W2959108872 cites W2058626067 @default.
W2959108872 cites W2061495361 @default.
W2959108872 cites W2063486632 @default.
W2959108872 cites W2067809794 @default.
W2959108872 cites W2069338627 @default.
W2959108872 cites W2070713869 @default.
W2959108872 cites W2071765836 @default.
W2959108872 cites W2072385329 @default.
W2959108872 cites W2073080642 @default.
W2959108872 cites W2077709392 @default.
W2959108872 cites W2083830987 @default.
W2959108872 cites W2124885883 @default.
W2959108872 cites W2312955005 @default.
W2959108872 cites W2343687526 @default.
W2959108872 cites W2437421313 @default.
W2959108872 cites W2482655897 @default.
W2959108872 cites W2606948282 @default.
W2959108872 cites W2609398114 @default.
W2959108872 cites W2785682805 @default.
W2959108872 cites W2877021292 @default.
W2959108872 cites W2892059035 @default.
W2959108872 cites W2898068590 @default.
W2959108872 cites W2913967543 @default.
W2959108872 cites W3030782949 @default.
W2959108872 cites W3032291222 @default.
W2959108872 cites W3032792439 @default.
W2959108872 cites W3043504825 @default.
W2959108872 cites W3144738204 @default.
W2959108872 cites W4205153120 @default.
W2959108872 cites W4247129227 @default.
W2959108872 doi "https://doi.org/10.1021/acs.energyfuels.9b01365" @default.
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