Results 221 to 230 of about 2,955,116 (287)
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Environmental Science and Technology, 2019
Optimized surface facet of the catalysts is an efficient strategy to boost catalytic purification of diesel soot as important components of atmospheric fine particles.
Yuechang Wei +7 more
semanticscholar +1 more source
Optimized surface facet of the catalysts is an efficient strategy to boost catalytic purification of diesel soot as important components of atmospheric fine particles.
Yuechang Wei +7 more
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Influence of fuel-oxygen content on morphology and nanostructure of soot particles
Combustion and Flame, 2019The share of biofuels in the fuel market has increased over the last several decades. This is related to their potential to reduce the emissions including particulate matter. It has been frequently reported that the fuel oxygen content is the main reason
P. Verma +9 more
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Dielectrophoretic Deposition of Graphite Oxide Soot Particles
Journal of Nanoscience and Nanotechnology, 2008Alternating current dielectrophoresis in water was used to position graphite oxide soot (GO-soot) particles generated by rapid thermal expansion of graphite oxide under inert gas. The dielectrophoretic deposition was carried out at a frequency of 10 MHz and a peak-to-peak voltage of 10 V, and the deposited particles were analyzed using scanning ...
Hong, S. +7 more
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Fuel, 2019
This study investigates the effect of biodiesel fuels on morphological characteristics of soot particles from spray flame in a constant volume combustion chamber. The experiments were carried out under simulated diesel engine condition. The auto-ignition
Felix Sebastian Hirner +5 more
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This study investigates the effect of biodiesel fuels on morphological characteristics of soot particles from spray flame in a constant volume combustion chamber. The experiments were carried out under simulated diesel engine condition. The auto-ignition
Felix Sebastian Hirner +5 more
semanticscholar +1 more source
Faraday Symposia of the Chemical Society, 1973
Probable mechanisms are discussed of the formation processes of pyrolytic carbon films and soot particles, based on experimental investigations of their formation rates. Both are two-stage processes including nucleation and growth of nuclei. The formation of pyrolytic carbon from methane at temperatures below 1300 K is a molecular process.
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Probable mechanisms are discussed of the formation processes of pyrolytic carbon films and soot particles, based on experimental investigations of their formation rates. Both are two-stage processes including nucleation and growth of nuclei. The formation of pyrolytic carbon from methane at temperatures below 1300 K is a molecular process.
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Soot-velocity measurements by particle vaporization velocimetry
Optics Letters, 1999We demonstrate a new imaging technique for velocity measurements in particle-laden flows. The technique, particle vaporization velocimetry, is a form of flow tagging based on laser vaporization of absorbing particles at defined locations in the flow.
J M, Seitzman, R T, Wainner, P, Yang
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Recycling of hazardous diesel soot particles into a high performance solar evaporation device
Applications of Surface Science, 2019In recent years, solar-induced interfacial heating of water has proven to be an efficient technique to produce steam while harnessing solar energy. Herein, we report diesel soot coated on cotton as a novel photothermal membrane for highly efficient solar
Higgins M Wilson +3 more
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Laser microprobe analysis of soot precursor particles and carbonaceous soot
Combustion and Flame, 1995Samples of soot precursor particles and carbonaceous soot from a nonsmoking ethene diffusion flame have been analyzed by means of laser microprobe mass spectrometry (LMMS). The mass spectra of soot precursor particles from the lower flame display many peaks in the 200–300-amu range that are characteristic of polycyclic aromatic hydrocarbons (PAHs). The
R.A. Dobbins, R.A. Fletcher, W. Lu
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Soot particle size and soot yield in shock tube studies
Combustion and Flame, 1983Abstract The size of soot particles formed during the shock tube pyrolysis of toluene was measured by laser Doppler velocimetry. The particle size appeared to be of the order of a micron, i.e. about an order of magnitude higher than previously reported in the literature.
M. Frenklach +3 more
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Environmental Science & Technology, 2014
S. China, Neila Salvadori, C. Mazzoleni
semanticscholar +3 more sources
S. China, Neila Salvadori, C. Mazzoleni
semanticscholar +3 more sources