Add to ORKGWe report on modifications to the widely used astrophysical code, FLASH (Fryxell, Olson et al., 2000) that enable accurate simulations of chemically reacting flows with heat addition. The enhancements to FLASH include the implementation of extensive hydrogen-air and methane-air chemistry through multiple, detailed mechanisms (Smooke, 1991; Katta and Roquemore, 1995; Mueller, Kim et al., 1999; Billet, 2005), accomplished by building on the existing infrastructure of nuclear reaction network solvers. The chemical reaction network is represented as a system of coupled ODEs, that are then solved either through the Kaps-Rentrop (Rosenbrok) method (Kaps and Rentrop, 1979) or the Bader-Deuflhard method (Bader and Deuflhard, 1983), supplemented by ...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
While real gas models have been studied for simple reactions, their application to realistic combust...
This work concentrates on automatic procedures for simplifying chemical models for realistic fuels u...
We report on modifications to the widely used astrophysical code, FLASH (Fryxell, Olson et al., 2000...
In view of the shortage of fossil fuel supply and the environmental impact arising from carbon emiss...
Abstract. A modern field code cluster for reacting flow in complex geometries has been established w...
Context. Chemistry often plays an important role in astrophysical gases. It regulates thermal proper...
Realistic numerical simulations of pyrolysis and combustion require not only accurate modeling of fl...
The shock-induced combustion of methane-air mixtures in hypersonic flows is investigated using a new...
In many practical combustion devices, including those used in gas turbine engines for aircraft and p...
An extension of the reacting H2-air computer code SPARK is presented, which enables the code to be u...
Despite the onset of peta-scale computing, simulations of reacting flows with detailed chemistry is ...
The essentially nonoscillatory (ENO) shock-capturing scheme for the solution of hyperbolic equation...
International audienceA promising way to reduce green house gases emissions of spark ignition (SI) e...
A new quasi-direct numerical simulation (q-DNS) solver named combustionFoam, capable of simulating r...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
While real gas models have been studied for simple reactions, their application to realistic combust...
This work concentrates on automatic procedures for simplifying chemical models for realistic fuels u...
We report on modifications to the widely used astrophysical code, FLASH (Fryxell, Olson et al., 2000...
In view of the shortage of fossil fuel supply and the environmental impact arising from carbon emiss...
Abstract. A modern field code cluster for reacting flow in complex geometries has been established w...
Context. Chemistry often plays an important role in astrophysical gases. It regulates thermal proper...
Realistic numerical simulations of pyrolysis and combustion require not only accurate modeling of fl...
The shock-induced combustion of methane-air mixtures in hypersonic flows is investigated using a new...
In many practical combustion devices, including those used in gas turbine engines for aircraft and p...
An extension of the reacting H2-air computer code SPARK is presented, which enables the code to be u...
Despite the onset of peta-scale computing, simulations of reacting flows with detailed chemistry is ...
The essentially nonoscillatory (ENO) shock-capturing scheme for the solution of hyperbolic equation...
International audienceA promising way to reduce green house gases emissions of spark ignition (SI) e...
A new quasi-direct numerical simulation (q-DNS) solver named combustionFoam, capable of simulating r...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
While real gas models have been studied for simple reactions, their application to realistic combust...
This work concentrates on automatic procedures for simplifying chemical models for realistic fuels u...