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)