The following publications have keyword/phrase "stochastic modelling":

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Stochastic modeling of soot particle size and age distributions in laminar premixed flames,

Jasdeep Singh, Michael Balthasar, Markus Kraft, and Wolfgang Wagner, Proceedings of the Combustion Institute 30, 1457-1465, (2005)

A new method for calculating the diameters of partially-sintered nanoparticles and its effect on simulated particle properties,

Clive G. Wells, Neal M. Morgan, Markus Kraft, and Wolfgang Wagner, Chemical Engineering Science 61, (1), 158-166, (2006)

A stochastic approach to calculate the particle size distribution function of soot particles in laminar premixed flames,

Michael Balthasar and Markus Kraft, Combustion and Flame 133, 289-298, (2003)

Explicit Stochastic ODE Solution Methods Applied to High-Temperature Combustion,

Sebastian Mosbach and Markus Kraft, Monte Carlo Methods and Applications 12, (1), 19-45, (2006)

Extending stochastic soot simulation to higher pressures,

Robert I. A. Patterson, Jasdeep Singh, Michael Balthasar, Markus Kraft, and Wolfgang Wagner, Combustion and Flame 145, (3), 638-642, (2006)

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A stochastic approximation scheme and convergence theorem for particle interactions with perfectly reflecting boundary conditions,

Clive G. Wells, Monte Carlo Methods and Applications 12, (3), 291-342, (2006)

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Modelling of particulate processes,

Markus Kraft, Kona, Powder and Particle 23, 18-35, (2005)

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Kinetic Monte Carlo simulations of soot particle aggregation,

Michael Balthasar, Markus Kraft, and Michael Frenklach, American Chemical Society: Preprint Papers, Division of Fuel Chemistry 50, (1), 135-136, (2005)

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Simulation of coalescence and breakage: an assessment of two stochastic methods suitable for simulating liquid-liquid extraction,

Mike J. Goodson and Markus Kraft, Chemical Engineering Science 59, 3865-3881, (2004)

Bivariate Stochastic Modelling of Nanoparticles,

Neal M. Morgan, Clive G. Wells, Markus Kraft, and Wolfgang Wagner, Proceedings, International Conference on Population Balance Modelling 2, (2004)

Analysis of a natural gas fuelled homogeneous charge compression ignition engine with exhaust gas recirculation using a stochastic reactor model,

Amit Bhave, Michael Balthasar, Markus Kraft, and Fabian Mauss, The International Journal of Engine Research 5, (1), 93-104, (2004)

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Modelling a Dual-fuelled Multi-Cylinder HCCI Engine Using a PDF-based Engine Cycle Simulator,

Amit Bhave, Markus Kraft, L. Montorsi, and Fabian Mauss, SAE Paper, 2004-01-0561

Numerical simulations of soot aggregation in premixed laminar flames,

Neal M. Morgan, Markus Kraft, Michael Balthasar, David Wong, Michael Frenklach, and Pablo Mitchell, Proceedings of the Combustion Institute 31, (1), 693-700, (2007)

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)

Using a web module to teach stochastic modeling,

Markus Kraft, Sebastian Mosbach, and Wolfgang Wagner, Chemical Engineering Education 39, (3), 244-248, (2005)

,

, , ()

Stochastic modeling of soot particle size and age distributions in laminar premixed flames,

Jasdeep Singh, Michael Balthasar, Markus Kraft, and Wolfgang Wagner, Proceedings of the Combustion Institute 30, 1457-1465, (2005)

A new method for calculating the diameters of partially-sintered nanoparticles and its effect on simulated particle properties,

Clive G. Wells, Neal M. Morgan, Markus Kraft, and Wolfgang Wagner, Chemical Engineering Science 61, (1), 158-166, (2006)

A stochastic approach to calculate the particle size distribution function of soot particles in laminar premixed flames,

Michael Balthasar and Markus Kraft, Combustion and Flame 133, 289-298, (2003)

Explicit Stochastic ODE Solution Methods Applied to High-Temperature Combustion,

Sebastian Mosbach and Markus Kraft, Monte Carlo Methods and Applications 12, (1), 19-45, (2006)

Extending stochastic soot simulation to higher pressures,

Robert I. A. Patterson, Jasdeep Singh, Michael Balthasar, Markus Kraft, and Wolfgang Wagner, Combustion and Flame 145, (3), 638-642, (2006)

,

, , ()

A stochastic approximation scheme and convergence theorem for particle interactions with perfectly reflecting boundary conditions,

Clive G. Wells, Monte Carlo Methods and Applications 12, (3), 291-342, (2006)

,

, , ()

Modelling of particulate processes,

Markus Kraft, Kona, Powder and Particle 23, 18-35, (2005)

,

, , ()

,

, , ()

Kinetic Monte Carlo simulations of soot particle aggregation,

Michael Balthasar, Markus Kraft, and Michael Frenklach, American Chemical Society: Preprint Papers, Division of Fuel Chemistry 50, (1), 135-136, (2005)

,

, , ()

Simulation of coalescence and breakage: an assessment of two stochastic methods suitable for simulating liquid-liquid extraction,

Mike J. Goodson and Markus Kraft, Chemical Engineering Science 59, 3865-3881, (2004)

Bivariate Stochastic Modelling of Nanoparticles,

Neal M. Morgan, Clive G. Wells, Markus Kraft, and Wolfgang Wagner, Proceedings, International Conference on Population Balance Modelling 2, (2004)

Analysis of a natural gas fuelled homogeneous charge compression ignition engine with exhaust gas recirculation using a stochastic reactor model,

Amit Bhave, Michael Balthasar, Markus Kraft, and Fabian Mauss, The International Journal of Engine Research 5, (1), 93-104, (2004)

,

, , ()

Modelling a Dual-fuelled Multi-Cylinder HCCI Engine Using a PDF-based Engine Cycle Simulator,

Amit Bhave, Markus Kraft, L. Montorsi, and Fabian Mauss, SAE Paper, 2004-01-0561

Numerical simulations of soot aggregation in premixed laminar flames,

Neal M. Morgan, Markus Kraft, Michael Balthasar, David Wong, Michael Frenklach, and Pablo Mitchell, Proceedings of the Combustion Institute 31, (1), 693-700, (2007)

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)

Using a web module to teach stochastic modeling,

Markus Kraft, Sebastian Mosbach, and Wolfgang Wagner, Chemical Engineering Education 39, (3), 244-248, (2005)

Stochastic modeling of soot particle size and age distributions in laminar premixed flames,

Jasdeep Singh, Michael Balthasar, Markus Kraft, and Wolfgang Wagner, Proceedings of the Combustion Institute 30, 1457-1465, (2005)

A new method for calculating the diameters of partially-sintered nanoparticles and its effect on simulated particle properties,

Clive G. Wells, Neal M. Morgan, Markus Kraft, and Wolfgang Wagner, Chemical Engineering Science 61, (1), 158-166, (2006)

A stochastic approach to calculate the particle size distribution function of soot particles in laminar premixed flames,

Michael Balthasar and Markus Kraft, Combustion and Flame 133, 289-298, (2003)

A new numerical approach for the simulation of the growth of inorganic nanoparticles,

Neal M. Morgan, Clive G. Wells, Mike J. Goodson, Markus Kraft, and Wolfgang Wagner, Journal of Computational Physics 211, (2), 638-658, (2006)

A new method for calculating the diameters of partially-sintered nanoparticles and its effect on simulated particle properties,

Clive G. Wells, Neal M. Morgan, Markus Kraft, and Wolfgang Wagner, Chemical Engineering Science 61, (1), 158-166, (2006)

A stochastic approach to calculate the particle size distribution function of soot particles in laminar premixed flames,

Michael Balthasar and Markus Kraft, Combustion and Flame 133, 289-298, (2003)

Conservative method for the reduction of the number of particles in the Monte Carlo simulation method for kinetic equations,

Alexander Vikhansky and Markus Kraft, Journal of Computational Physics 203, 371-378, (2005)

Explicit Stochastic ODE Solution Methods Applied to High-Temperature Combustion,

Sebastian Mosbach and Markus Kraft, Monte Carlo Methods and Applications 12, (1), 19-45, (2006)

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Toward a Comprehensive Model of the Synthesis of TiO2 Particles from TiCl4,

Richard H. West, Matthew S. Celnik, Oliver R. Inderwildi, Markus Kraft, Gregory J.O. Beran, and William H. Green, Industrial and Engineering Chemistry Research 46, (19), 6147-6156, (2007)

Models for the aggregate structure of soot particles,

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

Evaluating the EGR-AFR Operating Range of a HCCI Engine,

Amit Bhave, Markus Kraft, Fabian Mauss, Aaron Oakley, and Hua Zhao, SAE Paper, 2005-01-0161

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Coupling Algorithms for Calculating Sensitivities of Population Balances,

Peter L.W. Man, Markus Kraft, and J. R. Norris, AIP Conference Proceedings 1048, 927-930, (2008)

On a multivariate population balance model to describe the structure and composition of silica nanoparticles,

Shraddha Shekar, William J. Menz, Alastair J. Smith, Markus Kraft, and Wolfgang Wagner, Computers and Chemical Engineering 43, 130-147, (2012)