Study on the Stability of Diffusion Flame Anchored at the Impinged Point between an Air Stream and a Combustible Gas Stream : Part 1, On the Velocity and Concentration Profiles
スポンサーリンク
概要
- 論文の詳細を見る
The stability of a diffusion flame anchored at impinged point at right angle between air and fuel gas was studied. The stability of the flame may be affected by the flow and mixing field between fuel and oxidizer in the vicinity of the burner port where the flame attaches. To make such circumstances clear, velocity and concentration profiles were studied experimentally using a cold model. Results were as follows : (1) In the vicinity of the burner port, a pair of recirculation zones could be found out. And in the circulation zone, velocity was so small that the zone itself was not so effective as to control the profile outside of the zone. (2) In the outer region of this zone, the dimensionless velocity and concentration profile could be obtained.
- 一般社団法人日本機械学会の論文
著者
-
Ikai Shigeru
Faculty Of Engineering Keio University
-
Mizomoto Masahiko
Faculty Of Engineering Keio University
関連論文
- Turbulent Structure of a Flat Plate Boundary Layer Diffusion Flame (Production and Transfer Mechanism of a Turbulent Kinetic Energy) : Heat Transfer, Power, Combustion, Thermophysical Properties
- Turbulent Structure of a Jet Diffusion Flame in a Co-flowing Air Stream with Grid Turbulence
- Thermal Structure of a Flat Plate Turbulent Boundary Layer Diffusion Flame
- Evaporation and Ignition of a Fuel Droplet on a Hot Surface : Part 3, Effects of Initial Droplet Diameter
- Study on the Stability of Diffusion Flame Anchored at the Impinged Point between an Air Stream and a Combustible Gas Stream : Part 2, Stability Model of the Flame
- Study on the Stability of Diffusion Flame Anchored at the Impinged Point between an Air Stream and a Combustible Gas Stream : Part 1, On the Velocity and Concentration Profiles
- Study on Heat Transfer to Gas-Solids Suspension : Part 1, Influence of Free Turbulence on Heat Transfer
- Pneumatic Conveying of Solids : (Part 1,On Slip Velocities and Interaction between Wall and Particles in Horizontal Lines)