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Aerosol Science and Technology Volume 50, 2016 - Issue 5
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ARTICLES

Characterization of filter performance under low-pressure operation

Meilu HeDepartment of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, New York, USA
,
Suresh DhaniyalaDepartment of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, New York, USACorrespondence[email protected]
&
Matthew WagnerPall Corporation, SLS Global Technical Support, Port Washington, New York, USA
Pages 417-428 | Received 09 Nov 2015, Accepted 20 Feb 2016, Published online: 10 Mar 2016

References

  • Boskovic, L., Altman, I. S., Agranovski, I. E., Braddock, R. D., Myojo, T., and Choi, M. (2005). Influence of Particle Shape on Filtration Processes. Aerosol Sci. Technol. 39:1184–1190.
  • Davies, C. N. (1952). The separation of airborne dust and particles. Proc. Inst. Mech. Eng, 1B:185–213.
  • Davies, C. N., and Peetz, C. V. (1956). Impingement of Particles on a Transverse Cylinder. Proc. R. Soc. Lond., 234:269–295.
  • Devienne, F. M. (1958). Frottement et Échanges Thermiques Dans Les Gaz Rarefiés. Gauthier-Villars, Paris.
  • Dhaniyala, S., and Liu, B. Y. H. (1999). Investigations of Particle Penetration in Fibrous Filters: Part 1. Experimental. J. IEST., 42:32–40.
  • Dhaniyala, S., and Liu, B. Y. H. (2001). Theoretical Modeling of Filtration by Nonuniform Fibrous Filters. Aerosol Sci. Technol., 34:170–178.
  • Friedlander, S. K. (1957). Mass and Heat Transfer to Single Spheres and Cylinders at Low Reynolds Numbers. AIChE J., 3:43–48.
  • Fuchs, N. A., and Stechkina, I. B. (1963). A Note on the Theory of Fibrous Aerosol Filters. Ann. Occup. Hyg., 6:27–30.
  • Happel, J. (1959). Viscous Flow Relative to Arrays of Cylinders. AIChE J., 5:174–177.
  • He, M., Dhaniyala, S., and Wagner, M. (2015). Aerosol Filtration with Mobility-classified Particles: Role of Multiply-charged Particles in Skewing Penetration Measurements. Aerosol Sci. Technol., 49:705–716.
  • He, M., and Dhaniyala, S. (2014). Experimental Characterization of Flowrate-dependent Bipolar Diffusion Charging Efficiencies of Sub-50 nm Particles. J. Aerosol Sci., 76:175–187.
  • Hubbard, J. A., Brockmann, J. E., Dellinger, J., Lucero, D. A., Sanchez, A. L., and Servantes, B. L. (2012). Fibrous Filter Efficiency and Pressure Drop in the Viscous-Inertial Transition Flow Regime. Aerosol Sci. Technol., 46:138–147.
  • Kirsch, A. A., and Fuchs, N. A. (1968). Studies on Fibrous Aerosol Filters – III. Diffusional Deposition of Aerosols in Fibrous FIlters. Ann. Occup. Hyg., 11:299–304.
  • Kirsh, A. A., Stechkina, I. B., and Fuchs, N. A. (1975). Efficiency of Aerosol Filters Made of Ultrafine Polydisperse Fibres. J. Aerosol Sci., 6:119–124.
  • Kuwabara, S. (1959). The Forces Experienced by Randomly Distributed Parallel Circular Cylinders or Spheres in a Viscous Flow at Small Reynolds Numbers. J. Phys. Soc. Jpn., 14:527–532.
  • Landahl, H. D., and Hermann, R. G. (1949). Sampling of Liquid Aerosols by Wires, Cylinders, and Slides, and the Efficiency of Impaction of the Droplets. J. Colloid Sci., 4:103–136.
  • Lee, K. W., and Liu, B. Y. H. (1982). Theoretical Study of Aerosol Filtration by Fibrous Filters. Aerosol Sci. Technol. 1:147–161.
  • Liu, B. Y. H., and Rubow, K. L. (1990). Efficiency, Pressure Drop and Figure of Merit of High Efficiency Fibrous and Membrane Filter Media, in 5th World Filtration Congress, Nice, 5–8 June 1990. Société Française de Filtration, Paris, 3, 112.
  • Mertes, S., Schröder, F., and Wiedensohler, A. (1995). The Particle Detection Efficiency Curve of the TSI-3010 CPC as a Function of the Temperature Difference Between Saturator and Condenser. Aerosol Sci. Technol., 23:257–261.
  • Payet, S., Boulaud, D., Madelaine, G., and Renoux, A. (1992). Penetration and Pressure Drop of a HEPA Filter During Loading with Submicron Liquid Particles. J. Aerosol Sci., 23:723–735.
  • Pich, J. (1966a). Pressure Drop of Fibrous Filters at Small Knudsen Numbers. Ann. Occup. Hyg., 9:23–27.
  • Pich, J. (1966b). Theory of Aerosol Filtration by Fibrous and Membrane Filters, in Aerosol Science, Davies, C. N., ed., Academic Press, London, pp. 223–268.
  • Stechkina, I. B., and Fuchs, N. A. (1966). Studies on Fibrous Aerosol Filters – I. Calculation of Diffusional Deposition of Aerosols in Fibrous Filters. Ann. Occup. Hyg., 9:59–64.
  • Stechkina, I. B., Kirsch, A. A., and Fuchs, N. A. (1969). Studies on Fibrous Aerosol Filters – IV Calculation of Aerosol Deposition in Model Filters in the Range of Maximum Penetration. Ann. Occup. Hyg., 12:1–8.
  • Stern, S. C., Zeller, H. W., and Schekman, A. I. (1960). The Aerosol Efficiency and Pressure Drop of a Fibrous Filter at Reduced Pressures. J. Colloid Sci., 15:546–562.
  • Suneja, S. K., and Lee, C. H. (1974). Aerosol Filtration by Fibrous Filters at Intermediate Reynolds Numbers (≤100). Atmos. Environ., 8:1081–1094.
  • Takegawa, N., and Sakurai, H. (2011). Laboratory Evaluation of a TSI Condensation Particle Counter (model 3771) under Airborne Measurement Conditions. Aerosol Sci. Technol., 45:272–283.
  • Vereecke, G., Heyns, M. M., Anderson, N., Elsmore, C., and Espitalier-Noel, P. (1997). Generation and Transport of Corrosion Products in HCl Gas Lines. Future Fab. Int., 1:283–288.
  • Yeh, H.-C., Liu, B. Y. H. (1974). Aerosol filtration by fibrous filters – I. Theoretical. J. Aerosol Sci., 5:191–204.
  • Zhang, Z., and Liu, B. Y. H. (1991). Performance of TSI 3760 Condensation Nuclei Counter at Reduced Pressures and Flow Rates. Aerosol Sci. Technol., 15:228–238.
  • Zhang, Z., and Liu, B. Y. H. (1992). Experimental Study of Aerosol Filtration in the Transition Flow Regime. Aerosol Sci. Technol., 16:227–235.
  • Zhao, S., and Povitsky, A. (2013). Hybrid Continuum-molecular Modeling of Fibrous Filtration Flows in the Transition Flow Regime. J. Coupled Syst. Multiscale., 1:251–264.

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