Add to ORKGHigh-speed imaging and thermodynamical characterization are applied to an optically accessible, heavy-duty diesel engine in order to compare soot incandescence and NO emission behaviour of four bioderived fuels: rapeseed-methylester, Jatropha oil (pure), Jatropha-methylester and a 50/50 blend of cyclohexanone with a Fischer-Tropsch synthetic fuel. Regular diesel fuel is used as a reference. Soot incandescence is observed at 0.3 ° crank angle resolu-tion (200 images/cycle). The heat release rate and exhaust NO concentrations are used as indicators of average and peak temperatures, respectively, which are combined with soot incandescence signal to get a relative measure for a fuel's sooting propensity
The increasing global energy demand and the decreasing fossil-energy resources are enhancing the int...
The purpose of this study is to investigate the soot nanostructure characteristic and soot oxidation...
Engine performance and emission comparisons were made between the use of soy, Canola and yellow grea...
High-speed imaging and thermodynamical characterization are applied to an optically accessible, heav...
High-speed imaging, spectroscopy and thermodynamical characterization are applied to an optically ac...
Recently, biodiesel fuels have been recognized as an environmental friendly alternative fuel for die...
This study investigates in-flame sooting characteristics of biodiesel surrogates in compression-igni...
Global climate change drives research and implementation of low-carbon fuels. Engine combustion imag...
Biodiesel and blends with petroleum diesel are promising renewable alternative fuels for engines. In...
Biodiesel and blends with petroleum diesel are promising renewable alternative fuels for engines. In...
Recently, biodiesel fuels have been recognized as an environmental friendly alternative fuel for die...
© 2018 The Combustion Institute. Biodiesel and blends with petroleum diesel have shown their potenti...
Previous studies have demonstrated that methyl ester-based biodiesels produce significantly less so...
In this study, the generation of soot from the combustion of biodiesels and their blend with fossil ...
The increasing global energy demand and the decreasing fossil-energy resources are enhancing the int...
The purpose of this study is to investigate the soot nanostructure characteristic and soot oxidation...
Engine performance and emission comparisons were made between the use of soy, Canola and yellow grea...
High-speed imaging and thermodynamical characterization are applied to an optically accessible, heav...
High-speed imaging, spectroscopy and thermodynamical characterization are applied to an optically ac...
Recently, biodiesel fuels have been recognized as an environmental friendly alternative fuel for die...
This study investigates in-flame sooting characteristics of biodiesel surrogates in compression-igni...
Global climate change drives research and implementation of low-carbon fuels. Engine combustion imag...
Biodiesel and blends with petroleum diesel are promising renewable alternative fuels for engines. In...
Biodiesel and blends with petroleum diesel are promising renewable alternative fuels for engines. In...
Recently, biodiesel fuels have been recognized as an environmental friendly alternative fuel for die...
© 2018 The Combustion Institute. Biodiesel and blends with petroleum diesel have shown their potenti...
Previous studies have demonstrated that methyl ester-based biodiesels produce significantly less so...
In this study, the generation of soot from the combustion of biodiesels and their blend with fossil ...
The increasing global energy demand and the decreasing fossil-energy resources are enhancing the int...
The purpose of this study is to investigate the soot nanostructure characteristic and soot oxidation...
Engine performance and emission comparisons were made between the use of soy, Canola and yellow grea...