Add to ORKGPseudo one-dimensional mathematical models have been developed to compute plume width and centerline velocity and temperature in the plumes above finite size line and circular fire sources. The fundamental transient equations of mass, momentum and energy have been simplified by integrating them across the plume, using Gaussian profile shape assumption. The model equations have been solved numerically as well as analytically for different values of source Froude number (Frs)' Explicit relations have also been derived to compute centerline velocity and temperature in the plume. Key words: Plume, modelling, fir
A review is given of data that describe the mass flux of gas in large buoyant diffusion flames, with...
ABSTRACT: To get more information about early smoke movement in thermally stratified environments in...
A mathematical model called BUOYANT has previously been developed for the evaluation of the dispersi...
Plumes originating from fires may serve as a risk for people and environmental safety. Depending on ...
Thesis (Ph.D.), College of Engineering and Architecture, Washington State UniversitySmoke plumes ass...
Further to the earlier discussion on verifying plume expressions by two fire field models, three plu...
Current understanding of the buoyant rise and subsequent dispersion of smoke due to wildfires has be...
Colloque avec actes et comité de lecture. Internationale.International audienceThe aim of our work i...
Heating from wildfires adds buoyancy to the overlying air, often producing plumes that vertically di...
We have presented an overview of a mathematical model, BUOYANT, that was originally designed for the...
Results from three different applications are presented to illustrate how plumes from various types ...
International audienceAnalytical solutions are developed for turbulent plumes rising from circular s...
Field models solve modelled conservation equations for mass, momentum, species and enthalpy in time-...
Mathematical models of the convective transport induced by large fires are presented. The models are...
International audienceThe present work analyses theoretically and numerically fire plumes evolving i...
A review is given of data that describe the mass flux of gas in large buoyant diffusion flames, with...
ABSTRACT: To get more information about early smoke movement in thermally stratified environments in...
A mathematical model called BUOYANT has previously been developed for the evaluation of the dispersi...
Plumes originating from fires may serve as a risk for people and environmental safety. Depending on ...
Thesis (Ph.D.), College of Engineering and Architecture, Washington State UniversitySmoke plumes ass...
Further to the earlier discussion on verifying plume expressions by two fire field models, three plu...
Current understanding of the buoyant rise and subsequent dispersion of smoke due to wildfires has be...
Colloque avec actes et comité de lecture. Internationale.International audienceThe aim of our work i...
Heating from wildfires adds buoyancy to the overlying air, often producing plumes that vertically di...
We have presented an overview of a mathematical model, BUOYANT, that was originally designed for the...
Results from three different applications are presented to illustrate how plumes from various types ...
International audienceAnalytical solutions are developed for turbulent plumes rising from circular s...
Field models solve modelled conservation equations for mass, momentum, species and enthalpy in time-...
Mathematical models of the convective transport induced by large fires are presented. The models are...
International audienceThe present work analyses theoretically and numerically fire plumes evolving i...
A review is given of data that describe the mass flux of gas in large buoyant diffusion flames, with...
ABSTRACT: To get more information about early smoke movement in thermally stratified environments in...
A mathematical model called BUOYANT has previously been developed for the evaluation of the dispersi...