Soot Formation in Spray Flames
スポンサーリンク
概要
- 論文の詳細を見る
Soot and oxygen concentrations, and temperature distribution in kerosene spray flames were measured to study the relation between soot formation and characteristics of spray flames. The distributions of soot and oxygen concentrations have an inverse tendency to each other. The maximum soot concentration and the minimum oxygen concentration are observed at the same location, which is the inside of the maximum temperature zone in the flame. As the ignition location in the spray comes closer to an atomizer, the maximum value of soot concentration on spray axis becomes lower. When the Sauter mean diameter of droplets in the spray is kept constant, the maximum soot concentration increases and its axial location comes closer to the atomizer, as the issuing momentum flux of a spray decreases.
- 一般社団法人日本機械学会の論文
著者
-
Arai Masataka
Faculty Of Engineering University Of Hiroshima
-
HIROYASU Hiroyuki
Faculty of Engineering, University of Hiroshima
-
Kadota Toshikazu
Faculty Of Engineering University Of Hiroshima
-
TADOKORO Yoshihiro
Faculty of Engineering, University of Hiroshima
-
Tadokoro Yoshihiro
Faculty Of Engineering University Of Hiroshima
-
Hiroyasu Hiroyuki
Faculty Of Engineering University Of Hiroshima
関連論文
- Diffusion Jet Flames in Low and High Gravity Fields (特集 微小重力燃焼)
- Development and Use of a Spray Combustion Modeling to Predict Diesel Engine Efficiency and Pollutant Emissions : Part 3 An analysis by the method of system-model transformation
- Fundamental Study on DISC Engine with Two-Stage Fuel Injection
- Nonluminous Spray Combustion in a Jet-Mixing-Type Combustor
- Development and Use of a Spray Combustion Modeling to Predict Diesel Engine Efficiency and Pollutant Emissions : Part 2 Computational Procedure and Parametric Study
- Development and Use of a Spray Combustion Modeling to Predict Diesel Engine Efficiency and Pollutant Emissions : Part 1 Combustion Modeling
- Soot Formation in Spray Flames
- An Experimental Study on Kerosene-Hydrogen Hybrid Combustion in a Gas Turbine Combustor
- Evaporation of a Single Droplet at Elevated Pressures and Temperatures : 2nd Report, Theoretical Study
- Droplet Evaporation on a Hot Surface in Pressurized and Heated Ambient Gas
- FUEL DROPLET SIZE DISTRIBUTION IN DIESEL COMBUSTION CHAMBER