Dynamics of particle loading in deep-bed filter. Transport, deposition and reentrainment

Journal title

Chemical and Process Engineering




vol. 37


No 3 September



filtration ; lattice Boltzmann ; Brownian dynamics ; multi-phase flows ; porous media

Divisions of PAS

Nauki Techniczne




Polish Academy of Sciences Committee of Chemical and Process Engineering




Artykuły / Articles


ISSN 0208-6425


Chandrasekhar (1943), Stochastic Problems in Physics and Astronomy, Rev Mod Phys, 15, 1, ; Sztuk (2012), Brownian dynamics for calculation of the single fiber deposition efficiency of submicron particles, Chem Process Eng, 33, ; Long (2009), A correlation for the collection efficiency of Brownian particles in clean bed filtration in sphere packings by a lattice - Boltzmann method, Environ Sci Technol, 35, 205, ; Przekop (2004), Energy - balanced oscillatory model for description of particles deposition and reentrainment on fiber collector, Aerosol Sci Techn, 38, 330, ; Chen (2002), Numerical simulation of aerosol collection in filters with staggered parallel rectangular fibres, Comp Mech, 28, ; Karadimos (2003), The effect of the flow field recalculation on fibrous filter loading : a numerical simulation, Powder Techn, 137, ; Wang (2006), A case study of simulating submicron aerosol filtration via lightweight spun - bonded filter media, Chem Eng Sci, 61, ; Biggs (2003), Explicit numerical simulation of suspension flow with deposition in porous media ; influence of local flow field on deposition processes predicted by trajectory methods, Chem Eng Sci, 58, ; Gupta (1985), A Brownian dynamics simulation of aerosol deposition onto spherical collectors, Colloid Interface Sci, 104, ; Uhlenbeck (1930), On the theory of the Brownian motion, Phys Rev, 36, 823, ; Moskal (2006), Estimation of the diffusion coefficient of aerosol particle aggregates using Brownian simulation in the continuum regime, Aerosol Sci, 37, 1081, ; Payatakes (1973), A new model for granular porous media : Part I Model formulation, AIChE J, 19, ; Iwan (1980), Equivalent linearization for systems subjected to non - stationary random excitation, Int J Mech, 15, 71, ; Abuzeid (1991), Wall deposition of aerosol particles in a turbulent channel flow, Aerosol Sci, 22, ; Jackiewicz (2015), Analysis of the behavior of deposits in fibrous filters during non - steady state filtration using X - ray computed tomography, Pur Techn, 156, ; Ziskind (2000), Particle behavior on surfaces subjected to external excitations, Aerosol Sci, 26, 703, ; Skouras (2004), Simulation of downflow and upflow depth filtration of non - Brownian particles under constant flowrate or constant pressure drop Chinese Inst, Chem Eng, 35, 87. ; Przekop (2008), Deposition and filtration of nanoparticles in the composites of nano - and microsized fibers, Aerosol Sci Techn, 42, ; Dunnett (2006), A numerical study of the effects of loading from diffusive deposition on the efficiency of fibrous filters, Aerosol Sci, 37, 1116, ; Przekop (2004), Effect of shadowing on deposition efficiency and dendrites morphology in fibrous filters, Chem Process Eng, 25, 1563. ; Qian (1992), d Lattice - BGK models for Navier - Stokes equation, Europhys Lett, 17.