Chemical Engineering Science has published the following papers:

Single-particle method for stochastic simulation of coagulation processes,

Alexander Vikhansky and Markus Kraft, Chemical Engineering Science 60, 963-967, (2005)

Modelling and validation of granulation with heterogeneous binder dispersion and chemical reaction,

Andreas Braumann, Mike J. Goodson, Markus Kraft, and Paul R. Mort, Chemical Engineering Science 62, 4717-4728, (2007)

Two methods for sensitivity analysis of coagulation processes in population balances by a Monte Carlo method,

Alexander Vikhansky and Markus Kraft, Chemical Engineering Science 61, (15), 4966-4972, (2006)

Modelling of a RDC using a combined CFD-population balance approach,

Alexander Vikhansky and Markus Kraft, Chemical Engineering Science 59, 2597-2606, (2004)

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)

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)

A New Model for the Drying of Droplets Containing Suspended Solids,

Christopher S. Handscomb, Markus Kraft, and Andrew E Bayly, Chemical Engineering Science 64, (4), 628-637, (2009)

A New Model for the Drying of Droplets Containing Suspended Solids After Shell Formation,

Christopher S. Handscomb, Markus Kraft, and Andrew E Bayly, Chemical Engineering Science 64, (2), 228-246, (2009)

Simulating the structural evolution of droplets following shell formation,

Christopher S. Handscomb and Markus Kraft, Chemical Engineering Science 65, 713-725, (2010)

Incorporating experimental uncertainties into multivariate granulation modelling,

Andreas Braumann and Markus Kraft, Chemical Engineering Science 65, 1088-1100, (2010)

Numerical investigation of DQMoM-IEM as a turbulent reaction closure,

Jethro Akroyd, Alastair J. Smith, Laurence R. McGlashan, and Markus Kraft, Chemical Engineering Science 65, (6), 1915-1924, (2010)

Resolving conflicting parameter estimates in multivariate population balance models,

Peter L.W. Man, Andreas Braumann, and Markus Kraft, Chemical Engineering Science 65, 4038-4045, (2010)

Comparison of the stochastic fields method and DQMoM-IEM as turbulent reaction closures,

Jethro Akroyd, Alastair J. Smith, Laurence R. McGlashan, and Markus Kraft, Chemical Engineering Science 65, (20), 5429-5441, (2010)

A coupled CFD-population balance approach for nanoparticle synthesis in turbulent reacting flows,

Jethro Akroyd, Alastair J. Smith, Raphael Shirley, Laurence R. McGlashan, and Markus Kraft, Chemical Engineering Science 66, 3792-3805, (2011)

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)

Bayesian parameter estimation for a jet-milling model using Metropolis-Hastings and Wang-Landau sampling,

Catharine A Kastner, Andreas Braumann, Peter L.W. Man, Sebastian Mosbach, George Brownbridge, Jethro Akroyd, Markus Kraft, and Chrismono Himawan, Chemical Engineering Science 89, 244-257, (2013)

Impact of powder characteristics on a particle granulation model,

Catharine A Kastner, George Brownbridge, Sebastian Mosbach, and Markus Kraft, Chemical Engineering Science 97, 282-295, (2013)

Corrigendum to ‘'Impact of powder characteristics on a particle granulation model',

Catharine A Kastner, George Brownbridge, Sebastian Mosbach, and Markus Kraft, Chemical Engineering Science 99, 102-102, (2013)

Lifting a buried object: Reverse hopper theory,

Kok Foong Lee, John F. Davidson, Jethro Akroyd, and Markus Kraft, Chemical Engineering Science 105, 198-207, (2014)

Characterisation of lactose powder and granules for multivariate wet granulation modelling,

Jan-Georg Rosenboom, Sergiy Antonyuk, Stefan Heinrich, and Markus Kraft, Chemical Engineering Science 123, 395-405, (2015)

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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)

Developing breakage models relating morphological data to the milling behaviour of flame synthesised titania particles,

Casper Lindberg, Jethro Akroyd, and Markus Kraft, Chemical Engineering Science 166, 53-65, (2017)