TY  - JOUR
PY  - 2002//
TI  - Large-eddy-simulation of buoyancy-driven fire propagation behind a pyrolysis zone along a vertical wall
JO  - Fire safety journal
A1  - Wang, Hai-Yan
A1  - Coutin, M.
A1  - Most, Jean-Michel
SP  - 259
EP  - 285
VL  - 37
IS  - 3
N2  - Large-eddy-simulation (LES) is performed to investigate the transport characteristics and structure of large-scale, turbulent fires on vertical surfaces under natural convection conditions. The combustion process in buoyancy-driven wall fire plumes is assumed to be diffusion controlled, permitting a mixture-fraction-based modeling approach. The three-dimensional, time-dependent Navier-Stokes equations and mixture fraction are solved with sufficient temporal and spatial resolution. The large-scale eddies are simulated directly and subgrid-scale motion is represented by Smagorinsky model. The computed, time-averaged flame height, velocity and temperature profiles are compared with experimental data, and a relatively good agreement is attained. For a given heat release, the air entrainment rate over a vertical wall fire decreases to 1/4 one of a pool fire plume. The predicted entrainment rate closely follows an adjusted entrainment rate correlation from a pool fire plume. It is observed that the flame height behind a pyrolysis region over a vertical wall is more important than that for turbulent jet fire, and also a function of the heat release raised to the nth power with n=2/5.<p />
LA  - 
SN  - 0379-7112
UR  - http://dx.doi.org/
ID  - ref1
ER  -