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Physical Characterization of Biodiesel Particle Emission by Electron Microscopy
Technical Paper
2013-32-9150
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Nanostructures of diesel and biodiesel engine particulate matters (PMs) were investigated by using a Transmission Electron Microscopy (TEM). The average single particle sizes of biodiesel and diesel PMs are approximately 30-40 nm and 50-60 nm, respectively. Image processing process was used to estimate each carbon platelet length by using TEM image. The average carbon platelet length of biodiesel and diesel PMs are in the range of 0.1-7.0 nm. Moreover, carbon atoms per cubic volume of PMs are approximately 500-900. The result shows that engine load and fuel property are strongly impact on the size of single particle and carbon atom density of particle. This is one of interesting behaviors need to be investigated for better understanding. The results of this research would be used as basic information for design and develop removing process of PM emitted from engine combustion which using in diesel and biodiesel fuels.
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Authors
- Preechar Karin - King Mongkut's Institute of Technology Ladkrabang
- Yutthana Songsaengchan - King Mongkut's Institute of Technology Ladkrabang
- Songtam Laosuwan - King Mongkut's Institute of Technology Ladkrabang
- Chinda Charoenphonphanich - King Mongkut's Institute of Technology Ladkrabang
- Nuwong Chollacoop - National Science and Technology Development Agency
- Katsunori Hanamura - Tokyo Institute of Technology
Topic
Citation
Karin, P., Songsaengchan, Y., Laosuwan, S., Charoenphonphanich, C. et al., "Physical Characterization of Biodiesel Particle Emission by Electron Microscopy," SAE Technical Paper 2013-32-9150, 2013, https://doi.org/10.4271/2013-32-9150.Also In
References
- Konstandopoulos GA , Kostoglou M , Vlachos N , Kladopoulos E Progress in diesel particulate filter simulation SAE Technical paper; 2005-01-0946
- Konstandopoulos AG , Zarvalis D , Kladopoulou E , Dolios L A multi-reactor assembly for screening of diesel particulate filters SAE Technical paper; 2006-01-0874
- Tushima S , Nakamura I , Sakashita S , Hirai S , Kitayama D Lattice boltzmann simulation on particle transport and captured behaviours in a 3d-reconstructed micro porous DPF SAE Technical paper; 2010-01-0534
- Heywood BJ Internal Combustion Engine Fundamental. McGraw-Hill series in mechanical engineering Singapore 1998
- Smith IO Fundamentals of soot formation in flames with application to diesel engine particulate emissions Progress in Energy and Combustion Science 7 275 291
- Maricq MM Review chemical characterization of particulate emissions from diesel engine: A review Journal of Aerosol Science 38 1079 1118
- Kittelson BD Engines and nanoparticles: A review Journal of Aerosol Science 29 575 588
- Majewski AW , Khair KM Diesel emissions and their control SAE Order No.R-303 SAE International Warrendale USA
- Ishiguro T , Takatori T , Akihama K Microstructure of diesel soot particles probed by electron microscopy: first observation of inner core and outer shell Combustion and Flame 108 231 234
- Vander Wal AR , Yezerets A , Currier WN , Kim HD , Wang HC HRTEM Study of diesel soot collected from diesel particulate filters Carbon 45 70 77
- Fernundez-Alos V , Watson KJ , Vander Wal AR . Mathew PJ Soot and char molecular representations generated directly from HRTEM lattice fringe images using fringe3D Combustion and Flame 158 1807 1813
- Neeft PAJ , Nijhuis XT , Smakman E , Makkee M , Moulijn AJ Kinetics of the oxidation of diesel soot Fuel 76-12 1129 1136
- Darcy P , Costa DP , Mellottee H , Trichard MJ , Mariadassou DG Kinetics of catalyzed and non-catalyzed oxidation of soot from a diesel engine Catalysis Today 119 252 256
- Yezerets A , Currier WN , Eadler AH Experimental determination of the kinetics of diesel soot oxidation by O2 - Modeling consequences SAE Technical paper; 2003-01-0833
- Lorentzou , S. , Pagkoura , C. , Zygogianni , A. , Kastrinaki , G. et al. Catalytic Nano-structured Materials for Next Generation Diesel Particulate Filters SAE Int. J. Mater. Manuf. 1 1 189 198 2009 10.4271/2008-01-0417
- Karin , P. and Hanamura , K. Particulate Matter Trapping and Oxidation on a Catalyst Membrane SAE Int. J. Fuels Lubr. 3 1 368 379 2010 10.4271/2010-01-0808
- Oki , H. , Karin , P. , and Hanamura , K. Visualization of Oxidation of Soot Nanoparticles Trapped on a Diesel Particulate Membrane Filter SAE Int. J. Engines 4 1 515 526 2011 10.4271/2011-01-0602
- Karin P , Songsaengchan Y , Laosuwan S , Charoenphonphanich C , Chollacoop N , Hanamura K Nanostructure of Renewable Oxygenated Fuels Particulate Matter ASEAN Engineering Journal 3-1 72 83
- Karin P , Songsaengchan Y , Laosuwan S , Charoenphonphanich C , Chollacoop N , Hanamura K Nanostructure Investigation of Particle Emission by Using TEM Image Processing Method Energy Procedia Elsevier 2013