Synchrotron Radiation Studies of Additives in Combustion, II: Soot Agglomerate Microstructure Change by Alkali and Alkaline-Earth Metal Addition to a Partially Premixed Flame

Stasio, S. di; LeGarrec, J L; Mitchell, James B.

doi:10.1021/ef1012209

Cited by 28 publications

(21 citation statements)

References 22 publications

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“…Corannulene has been found to be present in flames (Lafleur et al, 1993), however its clustering effectiveness is expected to be less significant than those for larger curved molecules prevalent in sooting environments due to its weaker interaction energy. Potassium is readily ionised in a flame and has been shown to impact soot nucleation through the production of higher particle numbers and smaller particle sizes (Haynes et al, 1979;Di Stasio et al, 2011;Simonsson et al, 2017). Due to this known influence and the straightforward incorporation of the spherical potassium cation within an atomic model, K + provides a representative cation useful for exploring the interactions of cPAHs and ions in a large dynamic system.…”

Section: Nucleation Simulationsmentioning

confidence: 99%

Ion-Induced Soot Nucleation Using a New Potential for Curved Aromatics

Bowal

Martin

Misquitta

et al. 2019

Combustion Science and Technology

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short running title: Soot nucleation using a new potential for curved aromatics keywords: force field, curved polycyclic aromatic hydrocarbon, flexoelectric dipole, ion-induced nucleation, soot formation 2 Abstract A potential able to capture the properties and interactions of curved polycyclic aromatic hydrocarbons (cPAHs) was developed and used to investigate the nucleation behaviour and structure of nascent soot particles. The flexoelectric charge polarisation of cPAHs caused by pentagon integration was included through the introduction of off-site virtual atoms, and enhanced dispersion interaction parameters were fitted. The electric polarisation and intermolecular interactions of cPAHs were accurately reproduced compared to ab initio calculations. This potential was used within molecular dynamics simulations to examine the homogeneous and heterogeneous nucleation behaviour of the cPAH corannulene and planar PAH coronene across a range of temperatures relevant to combustion. The enhanced interactions between cPAHs and potassium ions resulted in significant and rapid nucleation of stable clusters compared to all other systems, highlighting their importance in soot nucleation. In addition, the resulting cPAH clusters present morphologies distinct from the stacked planar PAH clusters.

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Section: Nucleation Simulationsmentioning

confidence: 99%

Ion-Induced Soot Nucleation Using a New Potential for Curved Aromatics

Bowal

Martin

Misquitta

et al. 2019

Combustion Science and Technology

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“…13 The concentration of ions in a flame can be artificially increased through the addition of alkali and other metals, which easily ionize at flame temperatures. Electron microscopy 15 and small angle X-ray diffraction 16 revealed that primary particles increased in number and decreased in size with these metal additives, with significant reductions in the mass of particulates produced (50-90% reduction being reported for polystyrene combustion 17 ).…”

Section: Introductionmentioning

confidence: 97%

Flexoelectricity and the Formation of Carbon Nanoparticles in Flames

et al. 2018

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The formation of carbon nanoparticles in flames involves a nucleation step that remains poorly understood. Experimentally, carbon nuclei formation is known to depend strongly on the electrical aspects of combustion but modes of interaction between charged species in the flame and carbon precursors have yet to be found. We present evidence for flexoelectrically polarised aromatics contributing to carbon nanoparticulate nucleation. We imaged the nascent nanoparticles using high resolution transmission electron microscopy, which revealed that the majority of aromatics in the early carbon nanoparticles are fullerene-like and curved. The curvature induces a significant molecular flexoelectric dipole moment in the polyaromatic hydrocarbons. This electric polarization allows these molecules to strongly interact with chemi-ions produced during combustion, which we demonstrate using electronic structure calculations. The results indicate that the physical interaction between fullerene-like polar aromatics and chemi-ions is critically assisting the nucleation, and opens a new route to reduce pollution and improve flame-produced nanomaterials.

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“…Furthermore, the same as soot, the physical and chemical changes of gasified metal also occur near coal particles [25]. In the study of hydrocarbon flame and diesel engines, it is found that gaseous metals can affect the formation of soot and tar [26,27]. Therefore, these gasified metals, especially alkali metals and alkaline earth metals, may also affect the sooting process of coal tar.…”

Section: Introductionmentioning

confidence: 99%

Impacts of Organic Structures and Inherent Minerals of Coal on Soot Formation during Pyrolysis

Dong

et al. 2019

Energies

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The pyrolysis of four pairs of raw and acid-washed coals under N2 atmosphere was carried out in a drop tube reactor at 1250 °C. The results show that both organic structures and metal elements have an important influence on the formation of soot. The total area of aromatic and aliphatic hydrogen absorption bands is positively correlated with soot yield. Aromatic compounds have a greater contribution to soot and tar formation. The absorption band area of oxygen structures in coal FTIR spectra is negatively correlated with the soot conversion rate of tar. During pyrolysis, metal substances in coal can catalyze the dehydrogenation and deoxygenation of tar, reduce the content and stability of the aliphatic compound, and catalyze aromatic ring rupturing. More importantly, gasified metals can inhibit the polymerization reaction of aromatic compounds.

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Synchrotron Radiation Studies of Additives in Combustion, II: Soot Agglomerate Microstructure Change by Alkali and Alkaline-Earth Metal Addition to a Partially Premixed Flame

Cited by 28 publications

References 22 publications

Ion-Induced Soot Nucleation Using a New Potential for Curved Aromatics

Ion-Induced Soot Nucleation Using a New Potential for Curved Aromatics

Flexoelectricity and the Formation of Carbon Nanoparticles in Flames

Impacts of Organic Structures and Inherent Minerals of Coal on Soot Formation during Pyrolysis

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