The following publications have keyword/phrase "soot":

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Aromatic site description of soot particles,

Matthew S. Celnik, Abhijeet Raj, Richard H. West, Robert I. A. Patterson, and Markus Kraft, Combustion and Flame 155, (1-2 ), 161-180, (2008)

The simultaneous reduction of nitric oxide and soot in emissions from diesel engines,

Markus Sander, Abhijeet Raj, Oliver R. Inderwildi, Markus Kraft, Sven Kureti, and Henning Bockhorn, Carbon 47, 866-875, (2009)

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A statistical approach to develop a detailed soot growth model using PAH characteristics,

Abhijeet Raj, Matthew S. Celnik, Raphael Shirley, Markus Sander, Robert I. A. Patterson, Richard H. West, and Markus Kraft, Combustion and Flame 156, 896-913, (2009)

Towards a detailed soot model for internal combustion engines,

Sebastian Mosbach, Matthew S. Celnik, Abhijeet Raj, Markus Kraft, Honghi R. Zhang, Shuichi Kubo, and Kyoung-Oh Kim, Combustion and Flame 156, (6), 1156-1165, (2009)

Der Weg zu einem detaillierten Russmodell für Verbrennungsmotoren,

Sebastian Mosbach, Markus Kraft, Hongzhi R. Zhang, Shuichi Kubo, and Kyoung-Oh Kim, Motortechnische Zeitschrift (MTZ) 5, 408-412, (2009)

Models for the aggregate structure of soot particles,

Robert I. A. Patterson and Markus Kraft, Combustion and Flame 151, 160-172, (2007)

Gas and soot products formed in the pyrolysis of acetylene–ethanol blends under flow reactor conditions ,

Claudia Esarte, Angela Millera, Rafael Bilbao, and Maria U. Alzueta, Fuel Processing Technology 90, 496-503, (2009)

New polycyclic aromatic hydrocarbon (PAH) surface processes to improve the model prediction of the composition of combustion-generated PAHs and soot,

Abhijeet Raj, Peter L.W. Man, Tim Totton, Markus Sander, Raphael Shirley, and Markus Kraft, Carbon 48, 319-332, (2010)

A study on the coagulation of polycyclic aromatic hydrocarbon clusters to determine their collision efficiency,

Abhijeet Raj, Markus Sander, Vinod Janardhanan, and Markus Kraft, Combustion and Flame 157, 523-534, (2010)

Modelling the internal structure of nascent soot particles,

Tim Totton, Dwaipayan Chakrabarti, Alston Misquitta, Markus Sander, David Wales, and Markus Kraft, Combustion and Flame 157, 909-914, (2010)

Moving Toward Establishing More Robust and Systematic Model Development for IC Engines Using Process Informatics,

Andrew J Smallbone, Amit Bhave, Andreas Braumann, Markus Kraft, Antonis Dris, and Robert McDavid, SAE Paper, 2010-01-0152

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A mechanistic study on the simultaneous elimination of soot and nitric oxide from engine exhaust,

Abhijeet Raj, Zakwan Zainuddin, Markus Sander, and Markus Kraft, Carbon 49, 1516-1531, (2011)

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Surface Chemistry and Particle Shape: Processes for the Evolution of Aerosols in Titan's Atmosphere,

P. Lavvas, Markus Sander, Markus Kraft, and H. Imanaka, The Astrophysical Journal 728, (80), 1-11, (2011)

Stochastic weighted particle methods for population balance equations,

Robert I. A. Patterson, Wolfgang Wagner, and Markus Kraft, Journal of Computational Physics 230, 7456-7472, (2011)

A quantitative study of the clustering of polycyclic aromatic hydrocarbons at high temperatures,

Tim Totton, Alston Misquitta, and Markus Kraft, Physical Chemistry Chemical Physics 14, 4081-4096, (2012)

A fully coupled simulation of PAH and soot growth with a population balance model,

Dongping Chen, Zakwan Zainuddin, Edward K. Y. Yapp, Jethro Akroyd, Sebastian Mosbach, and Markus Kraft, Proceedings of the Combustion Institute 34, 1827-1835, (2013)

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An improved methodology for determining threshold sooting indices from smoke point lamps,

Roger Watson, Maria Botero, Christopher Ness, Neal M. Morgan, and Markus Kraft, Fuel 111, 120-130, (2013)

Simulating PM emissions and combustion stability in gasoline/diesel fuelled engines,

Andrew J Smallbone, Aaron R Coble, Amit Bhave, Sebastian Mosbach, Markus Kraft, Neal M. Morgan, and G. Kalghatgi, SAE Paper, SAE 2011-01-1184

Sooting tendency of paraffin components of diesel and gasoline in diffusion flames,

Maria Botero, Sebastian Mosbach, and Markus Kraft, Fuel 126, 8-15, (2014)

Sooting tendency of surrogates for the aromatic fractions of diesel and gasoline in a wick-fed diffusion flame,

Maria Botero, Sebastian Mosbach, Jethro Akroyd, and Markus Kraft, Fuel 153, 31-39, (2015)

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Numerical simulation and parametric sensitivity study of particle size distributions in a burner-stabilised stagnation flame,

Edward K. Y. Yapp, Dongping Chen, Jethro Akroyd, Sebastian Mosbach, Markus Kraft, Joaquin Camacho, and Hai Wang, Combustion and Flame 162, 2569-2581, (2015)

HRTEM evaluation of soot particles produced by the non-premixed combustion of liquid fuels,

Maria Botero, Dongping Chen, Silvia Gonzalez Calera, David Jefferson, and Markus Kraft, Carbon 96, 459–473, (2016)

Modelling soot formation from wall films in a gasoline direct injection engine using a detailed population balance model,

Buyu Wang, Sebastian Mosbach, Sebastian Schmutzhard, Shijin Shuai, Yaqing Huang, and Markus Kraft, Applied Energy 163, 154-166, (2016)

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PAH structure analysis of soot in a non-premixed flame using High-Resolution Transmission Electron Microscopy and Optical Band Gap Analysis,

Maria Botero, Erin M. Adkins, Silvia Gonzalez Calera, Houston Miller, and Markus Kraft, Combustion and Flame 164, 250-258, (2016)

Numerical simulation and parametric sensitivity study of optical band gap in a laminar co-flow ethylene diffusion flame,

Edward K. Y. Yapp, Robert I. A. Patterson, Jethro Akroyd, Sebastian Mosbach, Erin M. Adkins, J. Houston Miller, and Markus Kraft, Combustion and Flame 167, 320-334, (2016)

Modelling PAH curvature in laminar premixed flames using a detailed population balance model,

Edward K. Y. Yapp, Clive G. Wells, Jethro Akroyd, Sebastian Mosbach, Rong Xu, and Markus Kraft, Combustion and Flame 176, 172-180, (2017)