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Browsing publications by Emeritus Professor Mike Reeks.

Newcastle AuthorsTitleYearFull text
Emeritus Professor Mike Reeks
The Development and Application of a Kinetic Theory for Modeling Dispersed Particle Flows2021
Emeritus Professor Mike Reeks
Dr David Swailes
Andy Bragg
Is the kinetic equation for turbulent gas-particle flows ill-posed?2018
Emeritus Professor Mike Reeks
Pdf Models for Particle Transport Mixing and Collisions in Turbulent Flows2016
Emeritus Professor Mike Reeks
Special Issue: In Memoriam of Professor Clayton T. Crowe2016
Changqing Jin
Dr Ian Potts
Emeritus Professor Mike Reeks
The effects of near wall corrections to hydrodynamic forces on particle deposition and transport in vertical turbulent boundary layers2016
Chunyu JIN
Dr Ian Potts
Emeritus Professor Mike Reeks
A simple stochastic quadrant model for the transport and deposition of particles in turbulent boundary layers2015
Dr Yasmine Ammar
Emeritus Professor Mike Reeks
Experimental and modelling formation and aerosol behaviour relevant to nuclear reactor accidents.2014
Emeritus Professor Mike Reeks
Transport, Mixing and Agglomeration of Particles in Turbulent Flows2014
Emeritus Professor Mike Reeks
Transport, mixing and agglomeration of particles in turbulent flows2014
Emeritus Professor Mike Reeks
Particle resuspension in turbulent boundary layers and the influence of non-Gaussian removal forces2013
Emeritus Professor Mike Reeks
Report on the IUTAM Symposium on Mobile Particulate Systems:Kinematics, Rheology, and Complex Phenomena, Bangalore, India, 20122013
Fan Zhang
Emeritus Professor Mike Reeks
Professor Richard Perkins
Resuspension of small particles from multilayer deposits in turbulent boundary layers2013
Dr Yasmine Ammar
Emeritus Professor Mike Reeks
Break-up of aerosol agglomerates in highly turbulent gas flow2012
Dr Benjamin Devenish
Dr Rutgerus Ijzermans
Emeritus Professor Mike Reeks
Droplet growth in warm turbulent clouds2012
Emeritus Professor Mike Reeks
Dust in HTRs: Its nature and improving prediction of its resuspension2012
Elena Meneguz
Emeritus Professor Mike Reeks
Inertial-particle dynamics in turbulent flows: caustics, concentration fluctuations and random uncorrelated motion2012
Elena Meneguz
Emeritus Professor Mike Reeks
Statistical properties of particle segregation in homogeneous isotropic turbulence2011
Changqing Jin
Dr Ian Potts
Emeritus Professor Mike Reeks
A simplified stochastic model of coherent structures for particle deposdition in turbulent boundary layers2010
Dr Jun Zhang
Emeritus Professor Mike Reeks
A statistical model for the joint distribution of droplet size and charge density in an electrostatic spray2010
Emeritus Professor Mike Reeks
Modelling of release of particulate material from transport containers2010
Emeritus Professor Mike Reeks
Progress in understanding key aerosol issues2010
Dr Rutgerus Ijzermans
Elena Meneguz
Emeritus Professor Mike Reeks
Segregation of particles in incompressible random flows: singularities, intermittency and random uncorrelated motion2010
Dr Rutgerus Ijzermans
Emeritus Professor Mike Reeks
A Lagrangian approach to droplet condensation in atmospheric clouds2009
Dr Yasmine Ammar
Emeritus Professor Mike Reeks
Agglomeration of inertial particles in a random rotating symmetric straining flow2009
Dr Rutgerus Ijzermans
Emeritus Professor Mike Reeks
Elena Meneguz
Measuring segregation of inertial particles in turbulence by a full Lagrangian approach2009
Elena Meneguz
Emeritus Professor Mike Reeks
Quantification of heavy particle segregation in turbulent flows: a Lagrangian approach2009
Elena Meneguz
Emeritus Professor Mike Reeks
Quantification of heavy particles segregation in turbulent flows: a Lagrangian approach2009
Dr David Swailes
Dr Yasmine Ammar
Emeritus Professor Mike Reeks
Dr Yannis Drossinos
Stochastic transport of particles in straining flows2009
Emeritus Professor Mike Reeks
Prediction of droplet size distribution for electrostatic spray2008
Ivano Gregoratto
Emeritus Professor Calum McNeil
Emeritus Professor Mike Reeks
Micro-device for rapid separation of suspensions for use in micro-total-analysis-systems (μTAS)2007
Ivano Gregoratto
Emeritus Professor Calum McNeil
Emeritus Professor Mike Reeks
Micro-devices for rapid continuous separation of suspensions for use in micro-total-analysis-systems (μTAS)2007
Dr David Swailes
Dr Yasmine Ammar
Emeritus Professor Mike Reeks
A study of Brownian transport in straining flows2006
Emeritus Professor Mike Reeks
In search of random uncorrelated particle motion (RUM) in a simple random flow field2006
Emeritus Professor Mike Reeks
Modeling2006
Dr Yannis Drossinos
Emeritus Professor Mike Reeks
Brownian motion of finite-inertia particles in a simple shear flow2005
Emeritus Professor Mike Reeks
Computational Modelling of Multiphase Flow2005
Emeritus Professor Mike Reeks
Lagrangian quantification of particle segregation in homegeneous isotropic turbulence2005
Emeritus Professor Mike Reeks
Letter to the Editor2005
Emeritus Professor Mike Reeks
On model equations for particle dispersion in inhomogeneous turbulence2005
Emeritus Professor Mike Reeks
On probability density function equations for particle dispersion in a uniform shear flow2005
Emeritus Professor Mike Reeks
On the Constitutive relations for dispersed particles in non-uniform flows II: Application of Chapman Enskog and quasi-normal approximations2005
Emeritus Professor Mike Reeks
Statistics of velocity and preferential accumulation of micro-particles in boundary layer turbulence2005
Emeritus Professor Mike Reeks
On PDF equations and their solution for particle dispersion in a simple shear2004
Emeritus Professor Mike Reeks
Simulation of particle diffusion, segregation and intermittency in turbulent flows2004
Emeritus Professor Mike Reeks
Closure approximations for PDF equations based on the Simonin-Deutsch Minier Equations for Gas - Particle Flows2003
Emeritus Professor Mike Reeks
Comparison of recent models for particle deposition in a turbulent boundary layer2003
Emeritus Professor Mike Reeks
Constitutive relations for droplet and bubble flows and the role of turbulent structure2003
Emeritus Professor Mike Reeks
Particle interaction with turbulent structures - the application of simple random walk models2002
Emeritus Professor Mike Reeks
Kinetic models for particle resuspension in turbulent flows: theory and measurement2001
Emeritus Professor Mike Reeks
On the PDF Approach to Modelling Dispersed Particle Flows2001
Emeritus Professor Mike Reeks
Particle drift in turbulent flows: the influence of local structure and inhomogeneity2001
Emeritus Professor Mike Reeks
Use of a simple model for the interpretation of experimental data on particle resuspension in turbulent fows2001