The following publications have keyword/phrase "model":

Modelling the flame synthesis of silica nanoparticles from tetraethoxysilane,

Shraddha Shekar, Markus Sander, Rebecca Shaw, Alastair J. Smith, Andreas Braumann, and Markus Kraft, Chemical Engineering Science 70, 54-66, (2012)

Spark ignition to homogeneous charge compression ignition mode transition study: a new modelling approach,

Hao Wu, Nick Collings, Jonathan E. Etheridge, Sebastian Mosbach, and Markus Kraft, The International Journal of Engine Research 13, 1-25, (2012)

HCCI Combustion Control Using Dual-Fuel Approach: Experimental and Modeling Investigations,

Ali M. Aldawood, Sebastian Mosbach, and Markus Kraft, SAE Paper, 2012-01-1117

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)

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

Implementing detailed chemistry and in-cylinder stratification into 0/1-D IC engine cycle simulation tools,

Aaron R Coble, Andrew J Smallbone, Amit Bhave, Sebastian Mosbach, Markus Kraft, P Niven, and S. Amphlett, SAE Paper, SAE 2011-01-0849

Identifying optimal operating points in terms of engineering constraints and regulated emissions in modern diesel engines,

Andrew J Smallbone, Amit Bhave, Aaron R Coble, Sebastian Mosbach, Markus Kraft, and R.M. McDavid, SAE Paper, SAE 2011-01-1388

Iterative improvement of Bayesian parameter estimates for an engine model by means of experimental design,

Sebastian Mosbach, Andreas Braumann, Peter L.W. Man, Catharine A Kastner, George Brownbridge, and Markus Kraft, Combustion and Flame 159, 1303-1313, (2012)

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)

Real-Time Evaluation of a Detailed Chemistry HCCI Engine Model Using a Tabulation Technique,

Sebastian Mosbach, Ali M. Aldawood, and Markus Kraft, Combustion Science and Technology 180, (7), 1263-1277, (2008)

Dual injection homogeneous charge compression ignition engine simulation using a stochastic reactor model,

Sebastian Mosbach, Haiyun Su, Markus Kraft, Amit Bhave, Fabian Mauss, Zhi Wang, and Jian-Xin Wang, The International Journal of Engine Research 8, (1), 41-50, (2007)

The future of computational modelling in reaction engineering,

Markus Kraft and Sebastian Mosbach, Philosophical Transactions 368, 3633-3644, (2010)

Modelling cycle to cycle variations in an SI engine with detailed chemical kinetics,

Jonathan E. Etheridge, Sebastian Mosbach, Markus Kraft, Hao Wu, and Nick Collings, Combustion and Flame 158, 179-188, (2011)

A computational study of an HCCI engine with direct injection during gas exchange,

Haiyun Su, Alexander Vikhansky, Sebastian Mosbach, Markus Kraft, Amit Bhave, Kyoung-Oh Kim, Tatsuo Kobayashi, and Fabian Mauss, Combustion and Flame 147, 118-132, (2006)

Multi-Objective Optimization of a Kinetics-Based HCCI Model Using Engine Data,

Ali M. Aldawood, Sebastian Mosbach, Markus Kraft, and Amer Amer, SAE Paper, 2011-01-1783

HCCI Combustion Phasing Transient Control by Hydrogen-Rich Gas: Investigation Using a Fast Detailed-Chemistry Full-Cycle Model,

Ali M. Aldawood, Sebastian Mosbach, and Markus Kraft, SAE Paper, 2009-01-1134

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Automated IC engine model development with uncertainty propagation,

George Brownbridge, Andrew J Smallbone, Weerapong Phadungsukanan, Markus Kraft, and B Johansson, SAE Paper, SAE 2011-01-0237

Microkinetic Modeling of Fischer-Tropsch Synthesis over Cobalt Catalysts,

Pooya Azadi, George Brownbridge, Immanuel Kemp, Sebastian Mosbach, John. S. Dennis, and Markus Kraft, ChemCatChem (CCtC) 7, (1), 137-143, (2015)

A detailed kinetic study of the thermal decomposition of tetraethoxysilane,

Daniel Nurkowski, Philipp Buerger, Jethro Akroyd, and Markus Kraft, Proceedings of the Combustion Institute 35, 2291-2298, (2015)

Markov chain model for the critical micelle concentration of surfactant mixtures,

Radomir I. Slavchov and George S. Georgiev, Colloid and Polymer Science 292, 2927-2937, (2014)

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Applying Industry 4.0 to the Jurong Island Eco-industrial Park,

Ming Pan, Janusz Sikorski, Catharine A Kastner, Jethro Akroyd, Sebastian Mosbach, Raymond Lau, and Markus Kraft, Energy Procedia 75, 1536-1541, (2015)

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)

Design technologies for eco-industrial parks: from unit operations to processes, plants and industrial networks,

Ming Pan, Janusz Sikorski, Jethro Akroyd, Sebastian Mosbach, R. Lau, and Markus Kraft, Applied Energy 175, 305-323, (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)

Detailed population balance modelling of TiO2 synthesis in an industrial reactor,

Astrid Boje, Jethro Akroyd, Stephen Sutcliffe, John Edwards, and Markus Kraft, Chemical Engineering Science 164, 219–231, (2017)

Parameterisation of a biodiesel plant process flow sheet model,

Janusz Sikorski, George Brownbridge, Sushant S. Garud, Sebastian Mosbach, Iftekar A. Karimi, and Markus Kraft, Computers and Chemical Engineering 95, 108-122, (2016)