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W3107173593 endingPage "484" @default.
W3107173593 startingPage "468" @default.
W3107173593 abstract "The study aims to identify the characteristics of ignition and flame propagation in an n-heptane/methane–air dual-fuel mixture based on a specified mixing layer scheme using a group of numerical simulations by incorporating a skeletal chemistry mechanism. The effects of different temperature stratifications and uniform temperature distribution on autoignition kernel development, flame propagation, and flame structure in the dual-fuel combustion have been comprehensively investigated. The results indicate that with the increase in the oxidizer stream temperature, the high-temperature ignition (HTI) location in the mixing layer changes non-monotonously, as determined by the most reactive mixture fraction in the mixture fraction–temperature (ξ−T) space obtained from zero-dimensional simulation. The HTI points located in the negative temperature coefficient (NTC) region shift to a richer mixture with temperature increase, whereas the points located in the high temperature region shift to the smaller mixture fraction region. Additionally, the results demonstrate that for the ignition points in the NTC region, the shift to the richer mixture weakens the combustion rate, resulting in a prolonged time interval for steady flame propagation although the oxidizer stream temperature is increased. Furthermore, the low-temperature ignition (LTI) front propagation is driven by the gradient of the ignition delay time, and the HTI propagates as a spontaneous ignition front at first and then transforms to a diffusion-driven flame. The results also demonstrate that the maximum temperature of the LTI propagates to the richer mixture with temperature stratification, in contrast to that with a uniform temperature. Lastly, the comparative analyses of chemical explosion mode (CEM) and flame structure are conducted for two representative cases. A wide non-CEM region induced by low-temperature chemistry (LTC) occurs in the oxidizer stream when its temperature is relatively lower. And double peaks of heat release rate (HRR), that represent the HTI of n-heptane and post-combustion of methane respectively, are observed within the ignition front at the oxidizer side." @default.
W3107173593 created "2020-12-07" @default.
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W3107173593 date "2021-03-01" @default.
W3107173593 modified "2023-10-16" @default.
W3107173593 title "Effects of initial temperature on ignition and flame propagation of dual-fuel mixture in mixing layer" @default.
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W3107173593 cites W1965963495 @default.
W3107173593 cites W1968512837 @default.
W3107173593 cites W1969466261 @default.
W3107173593 cites W1973358441 @default.
W3107173593 cites W1975655551 @default.
W3107173593 cites W1979016307 @default.
W3107173593 cites W1999034357 @default.
W3107173593 cites W200565028 @default.
W3107173593 cites W2010507511 @default.
W3107173593 cites W2018383098 @default.
W3107173593 cites W2024056314 @default.
W3107173593 cites W2025366867 @default.
W3107173593 cites W2027918118 @default.
W3107173593 cites W2029141833 @default.
W3107173593 cites W2035523014 @default.
W3107173593 cites W2038925694 @default.
W3107173593 cites W2044484168 @default.
W3107173593 cites W2047972770 @default.
W3107173593 cites W2050134804 @default.
W3107173593 cites W2052361410 @default.
W3107173593 cites W2061689544 @default.
W3107173593 cites W2062162089 @default.
W3107173593 cites W2065804960 @default.
W3107173593 cites W2072471136 @default.
W3107173593 cites W2076020133 @default.
W3107173593 cites W2082320496 @default.
W3107173593 cites W2088534441 @default.
W3107173593 cites W2109767469 @default.
W3107173593 cites W2165070086 @default.
W3107173593 cites W2196051894 @default.
W3107173593 cites W2220615775 @default.
W3107173593 cites W2314025433 @default.
W3107173593 cites W2474206032 @default.
W3107173593 cites W2475025765 @default.
W3107173593 cites W2482655897 @default.
W3107173593 cites W2485102207 @default.
W3107173593 cites W2513872479 @default.
W3107173593 cites W2519141082 @default.
W3107173593 cites W2530763843 @default.
W3107173593 cites W2531244520 @default.
W3107173593 cites W2549923217 @default.
W3107173593 cites W2610196414 @default.
W3107173593 cites W2613853848 @default.
W3107173593 cites W2765865174 @default.
W3107173593 cites W2766627403 @default.
W3107173593 cites W2769484196 @default.
W3107173593 cites W2786385274 @default.
W3107173593 cites W2801439765 @default.
W3107173593 cites W2885329251 @default.
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W3107173593 cites W2898741230 @default.
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W3107173593 cites W2964009683 @default.
W3107173593 cites W2972196793 @default.
W3107173593 cites W3004597883 @default.
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W3107173593 doi "https://doi.org/10.1016/j.combustflame.2020.11.027" @default.
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