2021
DOI: 10.3389/fmech.2021.718598
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Dependence of Biofuel Ignition Chemistry on OH-Initiated Branching Fractions

Abstract: Abstraction of hydrogen by ȮH is the dominant initiation step in low-temperature oxidation of biofuels. Theoretical chemical kinetics calculations for such reactions provide a direct means of quantifying rates of abstraction, which are critical to modeling biofuel combustion. However, in several cases and despite agreement on total rate coefficients, branching fractions (i.e. the distribution of initial radicals) can vary depending on the level of theory, which leads to variations in ignition delay time predi… Show more

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Cited by 4 publications
(5 citation statements)
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References 27 publications
(76 reference statements)
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“…Rate parameters for initiation through the hydrogen abstraction of DEE by an OH radical are not estimated by RMG and are identical to those provided in the Tran et al 10 seed mechanism. Hartness and Rotavera 150 recently identified the significance of branching fractions for such initiation reactions in mechanisms which include peroxy radical chemistry. The RMG generated mechanism used in this study and the mechanism of Tran et al 10 provide the best estimates for EVE concentration, while sharing the same rate parameters for the highly influential hydrogen abstraction by OH reactions.…”
Section: Jet Stirred Reactor Species Concentrationsmentioning
confidence: 99%
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“…Rate parameters for initiation through the hydrogen abstraction of DEE by an OH radical are not estimated by RMG and are identical to those provided in the Tran et al 10 seed mechanism. Hartness and Rotavera 150 recently identified the significance of branching fractions for such initiation reactions in mechanisms which include peroxy radical chemistry. The RMG generated mechanism used in this study and the mechanism of Tran et al 10 provide the best estimates for EVE concentration, while sharing the same rate parameters for the highly influential hydrogen abstraction by OH reactions.…”
Section: Jet Stirred Reactor Species Concentrationsmentioning
confidence: 99%
“…seed mechanism. Hartness and Rotavera 150 recently identified the significance of branching fractions for such initiation reactions in mechanisms which include peroxy radical chemistry. The RMG generated mechanism used in this study and the mechanism of Tran et al 10 .…”
Section: Model Evaluationmentioning
confidence: 99%
“…Due to possibly important fragmentation of hydroxyCEs, only a weak signal was recorded at m/z 88 (C4H8O2) during the chlorine atom-initiated reaction investigated in FRs using SVUV-PIMS by [578]. In recent modeling studies, some fuel-specific CEs were predicted to form in non-negligible mole fractions (up to a magnitude of 10 -4 ) during the oxidation of nbutanol or n-pentanol [572,579]. Rotavera and coworkers [16,579] recently demonstrated a profound influence of the branching ratio of H-abstractions from n-butanol by OH on the formation of 2-hydroxytetrahydrofuran.…”
Section: Saturated and Unsaturated Alcoholsmentioning
confidence: 99%
“…In recent modeling studies, some fuel-specific CEs were predicted to form in non-negligible mole fractions (up to a magnitude of 10 -4 ) during the oxidation of nbutanol or n-pentanol [572,579]. Rotavera and coworkers [16,579] recently demonstrated a profound influence of the branching ratio of H-abstractions from n-butanol by OH on the formation of 2-hydroxytetrahydrofuran. However, this CE has not been experimentally detected from n-butanol oxidation.…”
Section: Saturated and Unsaturated Alcoholsmentioning
confidence: 99%
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