SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W53834710> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W53834710 endingPage "467" @default.
W53834710 startingPage "428" @default.
W53834710 abstract "A stiff,1 operator-split projection scheme is constructed for the simulation of unsteady two-dimensional reacting flow with detailed kinetics. The scheme is based on the compressible conservation equations for an ideal gas mixture in the zero-Mach-number limit. The equations of motion are spatially discretized using second-order centered differences and are advanced in time using a new stiff predictor–corrector approach. The new scheme is a modified version of the additive, stiff scheme introduced in a previous effort by H. N. Najm, P. S. Wyckoff, and O. M. Knio (1998, J. Comput. Phys.143, 381). The predictor updates the scalar fields using a Strang-type operator-split integration step which combines several explicit diffusion sub-steps with a single stiff step for the reaction terms, such that the global time step may significantly exceed the critical diffusion stability limit. Convection terms are explicitly handled using a second-order multi-step scheme. The velocity field is advanced using a projection scheme which consists of a partial convection–diffusion update followed by a pressure correction step. A split approach is also adopted for the convection–diffusion step in the momentum update. This splitting combines an explicit treatment of the convective terms at the global time step with several explicit fractional steps for diffusion. Finally, a corrector step is implemented in order to couple the evolution of the density and velocity fields and to stabilize the computations. The corrector acts only on the convective terms and the pressure field, while the predicted updates due to diffusion and reaction are left unchanged. The correction of the scalar fields is implemented using a single-step non-split, non-stiff, second-order time integration. A similar procedure is used for the velocity field, which is followed by a pressure projection step. The performance and behavior of the operator-split scheme are first analyzed based on tests for a nonlinear reaction–diffusion equation in one space dimension, followed by computations with a detailed C1C2 methane–air mechanism in one and two dimensions. The tests are used to verify that the scheme is effectively second order in time, and to suggest guidelines for selecting integration parameters, including the number of fractional diffusion steps and tolerance levels in the stiff integration. For two-dimensional simulations with the present reaction mechanism, flame conditions, and resolution parameters, speedup factors of about 5 are achieved over the previous additive scheme, and about 25 over the original explicit scheme." @default.
W53834710 created "2016-06-24" @default.
W53834710 creator A5018495299 @default.
W53834710 creator A5061770406 @default.
W53834710 creator A5075501406 @default.
W53834710 date "1999-09-01" @default.
W53834710 modified "2023-09-29" @default.
W53834710 title "A Semi-implicit Numerical Scheme for Reacting Flow" @default.
W53834710 cites W1564485997 @default.
W53834710 cites W1966439517 @default.
W53834710 cites W1968512837 @default.
W53834710 cites W1974247334 @default.
W53834710 cites W1974499154 @default.
W53834710 cites W1980642013 @default.
W53834710 cites W1984452672 @default.
W53834710 cites W1990893845 @default.
W53834710 cites W1993825802 @default.
W53834710 cites W1997834093 @default.
W53834710 cites W1998906156 @default.
W53834710 cites W2001125045 @default.
W53834710 cites W2002335991 @default.
W53834710 cites W2002855149 @default.
W53834710 cites W2005055728 @default.
W53834710 cites W2007665482 @default.
W53834710 cites W2010766997 @default.
W53834710 cites W2016699328 @default.
W53834710 cites W2017258831 @default.
W53834710 cites W2017852458 @default.
W53834710 cites W2019577174 @default.
W53834710 cites W2027459807 @default.
W53834710 cites W2028953033 @default.
W53834710 cites W2030757524 @default.
W53834710 cites W2031355757 @default.
W53834710 cites W2033160387 @default.
W53834710 cites W2035335058 @default.
W53834710 cites W2040819705 @default.
W53834710 cites W2046467283 @default.
W53834710 cites W2046899724 @default.
W53834710 cites W2049161806 @default.
W53834710 cites W2050350245 @default.
W53834710 cites W2055160148 @default.
W53834710 cites W2055213168 @default.
W53834710 cites W2058200192 @default.
W53834710 cites W2062515718 @default.
W53834710 cites W2066969405 @default.
W53834710 cites W2069914330 @default.
W53834710 cites W2071403173 @default.
W53834710 cites W2072845497 @default.
W53834710 cites W2077106341 @default.
W53834710 cites W2077135202 @default.
W53834710 cites W2081117149 @default.
W53834710 cites W2081482389 @default.
W53834710 cites W2083549357 @default.
W53834710 cites W2085070010 @default.
W53834710 cites W2086812825 @default.
W53834710 cites W2094710134 @default.
W53834710 cites W2096998341 @default.
W53834710 cites W2103350293 @default.
W53834710 cites W2124697741 @default.
W53834710 cites W2147321383 @default.
W53834710 cites W2155809947 @default.
W53834710 cites W2157599435 @default.
W53834710 cites W2163257413 @default.
W53834710 cites W2166537477 @default.
W53834710 cites W2169437869 @default.
W53834710 cites W2240452303 @default.
W53834710 cites W2525500864 @default.
W53834710 cites W2570047605 @default.
W53834710 cites W4292069163 @default.
W53834710 cites W4376596376 @default.
W53834710 doi "https://doi.org/10.1006/jcph.1999.6322" @default.
W53834710 hasPublicationYear "1999" @default.
W53834710 type Work @default.
W53834710 sameAs 53834710 @default.
W53834710 citedByCount "144" @default.
W53834710 countsByYear W538347102012 @default.
W53834710 countsByYear W538347102013 @default.
W53834710 countsByYear W538347102014 @default.
W53834710 countsByYear W538347102015 @default.
W53834710 countsByYear W538347102016 @default.
W53834710 countsByYear W538347102017 @default.
W53834710 countsByYear W538347102018 @default.
W53834710 countsByYear W538347102019 @default.
W53834710 countsByYear W538347102020 @default.
W53834710 countsByYear W538347102021 @default.
W53834710 countsByYear W538347102022 @default.
W53834710 countsByYear W538347102023 @default.
W53834710 crossrefType "journal-article" @default.
W53834710 hasAuthorship W53834710A5018495299 @default.
W53834710 hasAuthorship W53834710A5061770406 @default.
W53834710 hasAuthorship W53834710A5075501406 @default.
W53834710 hasBestOaLocation W538347101 @default.
W53834710 hasConcept C10138342 @default.
W53834710 hasConcept C121332964 @default.
W53834710 hasConcept C126255220 @default.
W53834710 hasConcept C134306372 @default.
W53834710 hasConcept C148444096 @default.
W53834710 hasConcept C162324750 @default.