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W2944027967 abstract "Bluff-body turbulent CH4: H2 (1:1) flames at 50% (HM1), 75% (HM2) and 91% (HM3) of the blow-off velocity (235 m s−1) were studied experimentally by Masri and co-workers and found to exhibit gradually increasing periodic and shear layer instabilities. The latter are coupled with increasing levels of local extinction with subsequent re-ignition further downstream. This study provides a systematic evaluation of the sensitivity of predictions to molecular mixing and scalar dissipation rate closures. The latter include extended forms of the Euclidean Minimum Spanning Tree (EMST) and modified Curl’s (MC) models, applicable to premixed turbulent flames via a closure that accounts for local Damköhler number effects (EEMST and EMC), and a conceptually related blended scalar time-scale approach (BEMST and BMC). Computations are performed using a hybrid finite volume (FV) – transported Joint Probability Density Function (JPDF) algorithm featuring stochastic Lagrangian particles, a comprehensive 48-scalar systematically reduced C/H/N/O mechanism, and a second moment method based on the Generalised Langevin Model that provides a partial resolution of the unsteady fluid motion. The sensitivity to solution parameters affecting the temporal resolution is quantified using Fourier transforms of the time histories of velocity and scalar traces. Radial profiles, conditional means and scatter plots are compared to the experimental data along with burning indices based on the conditional mean temperature. Vortex related instabilities ∼ 1 kHz in the outer shear layer appear for all closures with EMC showing periodic local extinction and re-ignition in the neck region for HM3 and flame turbules (i.e., discrete pockets of hot gas) separating periodically at frequencies ∼ 85 Hz. Results are similar to well–resolved JPDF/LES simulations for HM1. It is shown that the EMC and (E)EMST models essentially enclose the experimental data for HM2 and HM3. For HM3, emissions of NO are controlled by local extinction events that become increasingly sensitive to the molecular mixing closure as blow-off is approached." @default.
W2944027967 created "2019-05-16" @default.
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W2944027967 date "2019-08-01" @default.
W2944027967 modified "2023-09-27" @default.
W2944027967 title "Impact of molecular mixing and scalar dissipation rate closures on turbulent bluff-body flames with increasing local extinction" @default.
W2944027967 cites W1079428441 @default.
W2944027967 cites W1595072246 @default.
W2944027967 cites W1965036784 @default.
W2944027967 cites W1965599514 @default.
W2944027967 cites W1966558825 @default.
W2944027967 cites W1966683490 @default.
W2944027967 cites W1975706278 @default.
W2944027967 cites W1976502108 @default.
W2944027967 cites W1977878117 @default.
W2944027967 cites W1980378820 @default.
W2944027967 cites W1980430326 @default.
W2944027967 cites W1987180106 @default.
W2944027967 cites W1991787391 @default.
W2944027967 cites W1992349774 @default.
W2944027967 cites W1992415118 @default.
W2944027967 cites W1994376567 @default.
W2944027967 cites W2007902223 @default.
W2944027967 cites W2012476081 @default.
W2944027967 cites W2012609638 @default.
W2944027967 cites W2013110843 @default.
W2944027967 cites W2016271086 @default.
W2944027967 cites W2019814951 @default.
W2944027967 cites W2020380154 @default.
W2944027967 cites W2021044824 @default.
W2944027967 cites W2021663145 @default.
W2944027967 cites W2030194599 @default.
W2944027967 cites W2037717130 @default.
W2944027967 cites W2037875418 @default.
W2944027967 cites W2046162460 @default.
W2944027967 cites W2047610822 @default.
W2944027967 cites W2049069130 @default.
W2944027967 cites W2049526815 @default.
W2944027967 cites W2050124901 @default.
W2944027967 cites W2054673032 @default.
W2944027967 cites W2056099437 @default.
W2944027967 cites W2060538016 @default.
W2944027967 cites W2062600236 @default.
W2944027967 cites W2063300091 @default.
W2944027967 cites W2068434739 @default.
W2944027967 cites W2070419482 @default.
W2944027967 cites W2073999513 @default.
W2944027967 cites W2082778372 @default.
W2944027967 cites W2084290740 @default.
W2944027967 cites W2088704204 @default.
W2944027967 cites W2090579626 @default.
W2944027967 cites W2095595785 @default.
W2944027967 cites W2098691811 @default.
W2944027967 cites W2107255051 @default.
W2944027967 cites W2113083095 @default.
W2944027967 cites W2114260566 @default.
W2944027967 cites W2126932531 @default.
W2944027967 cites W2128352847 @default.
W2944027967 cites W2147984529 @default.
W2944027967 cites W2164580999 @default.
W2944027967 cites W2168575889 @default.
W2944027967 cites W2170922317 @default.
W2944027967 cites W2278698361 @default.
W2944027967 cites W2289319559 @default.
W2944027967 cites W2473688657 @default.
W2944027967 cites W2529318200 @default.
W2944027967 cites W2555677285 @default.
W2944027967 cites W2587119965 @default.
W2944027967 cites W2604384970 @default.
W2944027967 cites W2735405577 @default.
W2944027967 cites W2809785922 @default.
W2944027967 cites W2810114794 @default.
W2944027967 cites W2821198902 @default.
W2944027967 cites W2899449554 @default.
W2944027967 doi "https://doi.org/10.1016/j.combustflame.2019.04.039" @default.
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