Add to ORKGA review is given of data that describe the mass flux of gas in large buoyant diffusion flames, with the aim of developing a rational picture for this process as well as a correlation of the data. A brief review of flame-height scaling parameters is followed by a discussion of measurement techniques, the previous work on far-field and fire-plume models, and a description of an effort to develop a rational entrainment model
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...
The instantaneous and the mean velocity fields of the flow induced by a variety of buoyant diffusion...
A review is given of data that describe the mass flux of gas in large buoyant diffusion flames, with...
This paper describes entrainment measurements made in fire plumes with a new technique. Measurements...
The development of accurate descriptions of flame geometry, and the rates of entrainment, chemical s...
Mathematical models of the convective transport induced by large fires are presented. The models are...
Accidental fires resulting from fuel spills and tank explosions commonly burn as pool fires. These f...
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...
Field models solve modelled conservation equations for mass, momentum, species and enthalpy in time-...
We have presented an overview of a mathematical model, BUOYANT, that was originally designed for the...
Quantitative results of mass of soot emitted per mass of fuel burned are presented for a range of fl...
An approach to the study of gas phase combustion and convection processes in fires using a combinati...
The motion of hot combustion products through a burning structure plays a dominant role in fixing th...
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...
The instantaneous and the mean velocity fields of the flow induced by a variety of buoyant diffusion...
A review is given of data that describe the mass flux of gas in large buoyant diffusion flames, with...
This paper describes entrainment measurements made in fire plumes with a new technique. Measurements...
The development of accurate descriptions of flame geometry, and the rates of entrainment, chemical s...
Mathematical models of the convective transport induced by large fires are presented. The models are...
Accidental fires resulting from fuel spills and tank explosions commonly burn as pool fires. These f...
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...
Field models solve modelled conservation equations for mass, momentum, species and enthalpy in time-...
We have presented an overview of a mathematical model, BUOYANT, that was originally designed for the...
Quantitative results of mass of soot emitted per mass of fuel burned are presented for a range of fl...
An approach to the study of gas phase combustion and convection processes in fires using a combinati...
The motion of hot combustion products through a burning structure plays a dominant role in fixing th...
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...
The instantaneous and the mean velocity fields of the flow induced by a variety of buoyant diffusion...