Formation of PM and Soot Precursor in Diffusion Flame Generated by Thermally Decomposed Diesel Fuel(Engineering)
スポンサーリンク
概要
- 論文の詳細を見る
Paniculate matter (PM) and soot precursor formation by thermally decomposed n-parafiin and iso-paraffin fuels were studied in a high temperature atmosphere to simulate diesel combustion. Thermally decomposed hydrocarbons were generated using a plug flow reactor. They were immediately introduced into a co-flow diffusion burner as fuel. Both fuels produce thermally decomposed hydrocarbons having different compositions that affect PM and soot formation. Branched molecular structure fuel causes more exhaust PM concentration than n-paraffin fuel because of increasing first aromatic ring concentrations and PAHs. PAHs fluorescence wavelength in SOF features a 464nm peak when soot appears.
- 舞鶴工業高等専門学校の論文
著者
-
Miwa Kei
Jst Innovation Satellite Univ Of Tokushima
-
Noge Hirofumi
Dept. of Mechanical Eng., Maizuru National College of Technology
-
Kidoguchi Yoshiyuki
Dept. of Ecosystem Eng., Univ. of Tokushima
-
Kidoguchi Yoshiyuki
Dept. Of Ecosystem Eng. Univ. Of Tokushima
-
Noge Hirofumi
Dept. Of Mechanical Eng. Maizuru National College Of Technology
関連論文
- deNOx Mechanism Caused by Thermal Cracking Hydrocarbons in Stratified Rich Zone during Diesel Combustion(Diesel Engines, Performance and Emissions, NOx Strategies)
- Formation of PM and Soot Precursor in Diffusion Flame Generated by Thermally Decomposed Diesel Fuel(Engineering)
- A Study on NO Reduction Caused by Thermal Cracking Hydrocarbons during Rich Diesel Combustion