Numerical approaches to combustion modeling

 Content: Ab initio quantum chemistry for combustion --
 Rate coefficient calculations for combustion modeling --
 Numerical modeling of combustion of complex hydrocarbon --
 Combustion kinetics and sensitivity analysis computations --
 Reduction of chemical reaction models --
 Length scales in laminar and turbulent flames --
 Numerical modeling of laminar diffusion flames --
 Laminar flames in premixed gases --
 Spectral simulations of turbulent reacting flows --
 Vortex simulation of reacting shear flow --
 Combustion modeling using PDF methods --
 Supersonic reacting internal flow fields --
 Studies of detonation initiation, propagation, and quenching --
 Numerical modeling of heterogeneous detonations --
 Deflagration-to-detonation transition in reactive granular materials. Toward a microscopic theory of detonations in energetic crystals - - Overview of spray modeling --
 Liquid drop behavior in dense and dilute clusters --
 Spray combustion in idealized configurations --
 Comparisons of deterministic and stochastic computations of drop collisions in dense sprays --
 Ignition and flame spread across solid fuels --
 Pulse combustor dynamics --
 Mathematical modeling of enclosure fires --
 Nuclear systems.