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n-Heptane Detailed Mechanism Version 3. This mechanism represents an updated release of the previous version available on the website (Version 3.0). The mechanism is based on the previously developed and very successful mechanism of Curran et al. 1998 [1].
n-Heptane, Detailed Mechanism, Version 3.1 This mechanism represents an updated release of the previous version available on the website (Version 3.0). The mechanism is based on the previously developed and very successful mechanism of Curran et al. 1998 [1].
18 gru 2019 · Reduced mechanisms for n-heptane combustion have been constructed using the novel ACR method, with the complex mechanism from CRECK, including low-temperature chemistry, as a starting point.
1 sty 2021 · The low temperature chemistry of n-heptane is dominated by consecutive oxygen addition pathways, which lead to oxygenated reaction products [8]. In Section 4.1., several oxygenated species, i.e. C 7 H 12 O 2, C 7 H 14 O, and C 7 H 14 O 3, were identified, and their temperature-dependent signal profiles are shown in Fig. 5 with the associated ...
1 sie 2024 · This research determined that the key intermediate for the ring formation of n-heptane is heptene and the pathway proceeds via cyclization (CY), dehydrogenation (DH), isomerization (IS) and hydrogenolysis (HL).
1 paź 2016 · This work presents an updated experimental and kinetic modeling study of n-heptane oxidation. In the experiments, ignition delay times of stoichiometric n-heptane/air mixtures have been measured in two different high-pressure shock tubes in the temperature range of 726–1412 K and at elevated pressures (15, 20 and 38 bar).
To calculate ignition delay times a skeletal 56-step mechanism for n-heptane is further reduced to a short 30-step mechanism containing two isomers of the n-heptyl-redical and reactions...
