References

[1] Helble J,Devito M,Chang Y W,et al.Combustion aerosols:factors governing their size and composition and implications to human health.Journal of the Air and Waste Management Association,2000,50:1619-1622.

[2] Maynard A D,Kuempel E D.Airborne nanostructured particles and occupational health.Journal of Nanoparticle Research,2005,7:587-614.

[3] Stechkina I B,Kirsch A A,Fuchs N A.Studies on fibrous aerosol filters. Ⅳ.Calculation of aerosol deposition in model filters in the range of maximum penetration.Annals of Occupational Hygiene,1969,12:1.

[4] Lee K W,Liu B Y H.Theoretical study of aerosol filtration by fibrous filters.Aerosol Science and Technology,1982,1:147-161.

[5] Maze B,Tafreshi H V,Wang Q,et al.A simulation of unsteady-state filtration via nanofiber media at reduced operating pressures.Journal of Aerosol Science,2007,38:550-571.

[6] Kuwabara S.The forces experienced by randomly distributed parallel circular cylinders or spheres in a viscous flow at small Reynolds numbers.Journal of the Physical Society of Japan,1959,14:527-532.

[7] Happel J.Viscous flow relative to arrays of cylinders.Aiche Journal,2010,5:174-177.

[8] Davies C N.Air filtration.Academic Press,1973.

[9] Rao N,Faghri M.Computer modeling of aerosol filtration by fibrous filters.Aerosol Science and Technology,2007,8:133-156.

[10] Geraldliu Z,Wang P.Pressure drop and interception efficiency of multifiber filters.Aerosol Science and Technology,1997,26:313-325.

[11] Payatakes A C,Chi T.Particle deposition in fibrous media with dendrite-like pattern,a preliminary model.Journal of Aerosol Science,1976,7:85,IN1,95-94,IN1,100.

[12] Kanaoka C,Kishima T.Observation of the process of dust accumulation on a rigid ceramic filter surface and the mechanism of cleaning dust from the filter surface.Advanced Powder Technology,1999,10:417-426.

[13] Kanaoka C,Hiragi S,Tanthapanichakoon W.Stochastic simulation of the agglomerative deposition process of aerosol particles on an electret fiber.Powder Technology,2001,118:97-106.

[14] Chen S,Cheung C S,Chan C K,et al.Numerical simulation of aerosol collection in filters with staggered parallel rectangular fibers.Computational Mechanics,2002,28:152-161.

[15] Cheung C S,Cao Y H,Yan Z D.Numerical model for particle deposition and loading in electret filter with rectangular split type fibers.Computational Mechanics,2005,35:449-458.

[16] Maschio C,De Arruda A C F.Modeling of the efficiency of fibrous filters through numerical simulation and X-ray tomography.Advanced Powder Technology,2001,12:311-329.

[17] Przekop R,Moskal A,GradońL.Lattice-Boltzmann approach for description of the structure of deposited particulate matter in fibrous filters.Journal of Aerosol Science,2003,34:133-147.

[18] Wang H,Zhao H,Guo Z,et al.Numerical simulation of particle capture process of fibrous filters using Lattice Boltzmann two-phase flow model.Powder Technology,2012,227:111-122.

[19] Wang H,Zhao H,Wang K,et al.Simulation of filtration process for multi-fiber filter using the Lattice-Boltzmann two-phase flow model.Journal of Aerosol Science,2013,66:164-178.

[20] Li S Q,Marshall J S.Discrete element simulation of micro-particle deposition on a cylindrical fiber in an array.Journal of Aerosol Science,2007,38:1031-1046.

[21] Qian F,Huang N,Zhu X,et al.Numerical study of the gas-solid flow characteristic of fibrous media based on SEM using CFD-DEM.Powder Technology,2013,249:63-70.

[22] Qian F,Huang N,Lu J,et al.CFD-DEM simulation of the filtration performance for fibrous media based on the mimic structure.Computers and Chemical Engineering,2014,71:478-488.

[23] Lin K C,Patel R,Tasi J S.Filtration of aerosol particles by clean elliptical fibers with relevance to pore size:a lattice Boltzmann-cellular automaton model.Computers and Fluids,2017,156:534-544.

[24] Tamadate T,Fujimoto T,Choi H J,et al.How does the packing density of a metal screen affect the mechanism for catching highly charged nanoparticles?Journal of Aerosol Science,2018,119:22-30.

[25] Lambert B,Weynans L,Bergmann M.Local lubrication model for spherical particles within incompressible Navier-Stokes flows.Physical Review E,2018,97:033313.

[26] Kerimov A,Mavko G,Mukerji T,et al.Mechanical trapping of particles in granular media.Physical Review E,2018,97:022907.

[27] Yang H,Hogan C J.Collision rate coefficient for charged dust grains in the presence of linear shear.Physical Review E,2017,96:032911.

[28] Théron F,Joubert A,Coq L L.Numerical and experimental investigations of the influence of the pleat geometry on the pressure drop and velocity field of a pleated fibrous filter.Separation and Purification Technology,2017,182:69-77.

[29] Feng Z,Pan W,Zhang H,et al.Evaluation of the performance of an electrostatic enhanced air filter (EEAF) by a numerical method.Powder Technology,2018,327:201-214.

[30] Joe Y H,Shim J,Shin W G,et al.Effects of an external electric field on the collection efficiency of air filters:Filtration mechanisms with an external e-field.Aerosol Science and Technology,2017,51:1409-1418.

[31] Rodrigues M V,Barrozo M A S,Gonçalves J A S,et al.Effect of particle electrostatic charge on aerosol filtration by a fibrous filter.Powder Technology,2017,313:323-331.

[32] Karjalainen P,Saari S,Kuuluvainen H,et al.Performance of ventilation filtration technologies on characteristic traffic related aerosol down to nanocluster size.Aerosol Science and Technology,2017,51:1398-1408.

[33] Gac J M,Jackiewicz-Zagórska A,Łukasz Werner,et al.Numerical modeling of solid deposits reorganization during consecutive solid-liquid aerosol filtration:influence on the dynamics of filtration efficiency.Journal of Aerosol Science,2018,119:13-21.

[34] Huang H,Zheng C,Zhao H.Numerical investigation on non-steady-state filtration of elliptical fibers for submicron particles in the"Greenfield gap"range.Journal of Aerosol Science,2017,114:263-275.

[35] Rastegar V,Ahmadi G,Babu S V.Filtration of aqueous colloidal ceria slurries using fibrous filters—an experimental and simulation study.Separation and Purification Technology,2017,176:231-242.

[36] Chen L,Ding S,Liang Z,et al.Filtration efficiency analysis of fibrous filters:experimental and theoretical study on the sampling of agglomerate particles emitted from a GDI engine.Aerosol Science and Technology,2017,51:1082-1092.

[37] Maddineni A K,Das D,Damodaran R M.Inhibition of particle bounce and re-entrainment using oil-treated filter media for automotive engine intake air filtration.Powder Technology,2017,322:369-377.

[38] Liu C,Hsu P C,Lee H W,et al.Transparent air filter for high-efficiency PM2.5 capture.Nature Communications,2015,6:1-9.

[39] Kim M,Lim G T,Kim Y J,et al.A novel electrostatic precipitator-type small air purifier with a carbon fiber ionizer and an activated carbon fiber filter.Journal of Aerosol Science,2018,117:63-73.

[40] Nemoto J,Saito T,Isogai A.Simple freeze-drying procedure for producing nanocellulose aerogel-containing,high-performance air filters.ACS Applied Materials and Interfaces,2015,7:19809-19815.

[41] Dahneke B.The capture of aerosol particles by surfaces.Journal of Colloid and Interface Science,1971,37:342-353.

[42] Gallily I,La Mer V K.On the behavior of liquid droplets after impinging on solid surface.Journal of Physical Chemistry,1958,62:1295-1299.

[43] Dahneke B.Measurements of bouncing of small latex spheres.Journal of Colloid and Interface Science,1973,45:584-590.

[44] Lehmann M J,Hardy E H,Meyer J,et al.MRI as a key tool for understanding and modeling the filtration kinetics of fibrous media.Magnetic Resonance Imaging,2005,23:341-342.

[45] Kasper G,Schollmeier S,Meyer J.Structure and density of deposits formed on filter fibers by inertial particle deposition and bounce.Journal of Aerosol Science,2010,41:1167-1182.

[46] Li W,Shen S,Li H.Study and optimization of the filtration performance of multi-fiber filter.Advanced Powder Technology,2016,27:638-645.

[47] Tehrani S M B,Moosavi A,Sadrhosseini H.Filtration of aerosol particles by cylindrical fibers within a parallel and staggered array.Springer-Verlag,2016,22:965-977.

[48] Karadimos A,Ocone R.The effect of the flow field recalculation on fibrous filter loading:a numerical simulation.Powder Technology,2003,137:109-119.

[49] Hosseini S A,Tafreshi H V.Modeling particle filtration in disordered 2-D domains:a comparison with cell models.Separation and Purification Technology,2010,74:160-169.

[50] Hosseini S A,Tafreshi H V.3-D simulation of particle filtration in electrospun nanofibrous filters.Powder Technology,2010,201:153-160.

[51] Jaganathan S,Tafreshi H V,Pourdeyhimi B.A realistic approach for modeling permeability of fibrous media:3-D imaging coupled with CFD simulation.Chemical Engineering Science,2008,63:244-252.

[52] Qian F,Zhang J,Huang Z.Retraction:effects of the operating conditions and geometry parameter on the filtration performance of the fibrous filter.Chemical Engineering and Technology,2010,32:789-797.

[53] Paz C,Suárez E,Gil C,et al.Numerical study of the impact of windblown sand particles on a high-speed train.Journal of Wind Engineering and Industrial Aerodynamics,2015,145:87-93.

[54] Fathizadeh N,Mohebbi A,Soltaninejad S,et al.Design and simulation of high pressure cyclones for a gas city gate station using semi-empirical models,genetic algorithm and computational fluid dynamics.Journal of Natural Gas Science and Engineering,2015,26:313-329.

[55] Patankar S V.Numerical heat transfer and fluid flow.Hemisphere Pub Corp,1980.

[56] Liu S,Li H,Shen S,et al.Simulation of particle trajectory in the head-disk interface.IEEE Transactions on Magnetics,2015,51:1-4.

[57] Li A,Ahmadi G.Dispersion and deposition of spherical-particles from point sources in a turbulent chemical flow.Aerosol Science and Technology,1992,16:209-226.

[58] Dahneke B.Further measurements of bouncing of small latex spheres.Journal of Colloid and Interface Science,1975,51:58-65.

[59] Wang H C,John W.Comparative bounce properties of particle materials.Aerosol Science and Technology,1987,7:285-299.

[60] Chernyakov A L,Kirsh A A,Kirsh V A.Efficiency of inertial deposition of aerosol particles in fibrous filters with regard to particle rebounds from fibers.Colloid Journal,2011,73:389-393.

[61] Sanchez A L,Hubbard J A,Dellinger J G,et al.Experimental study of electrostatic aerosol filtration at moderate filter face velocity.Aerosol Science and Technology,2013,47:606-615.

[62] Hinds W C.Aerosol technology,properties,behavior,and measurement of airborne particles.Journal of Aerosol Science,1998,31:1121-1122.