Influence of Humidity on Clogging of Flat and Pleated HEPA Filters

The influence of humidity on changes to the pressure drop of flat and pleated HEPA filters clogged by polydisperse hygroscopic and non-hygroscopic aerosols has been studied. For flat filters, the results confirm the observations reported by Gupta et al. (1993) that with a hygroscopic aerosol at humidity below the deliquescent point, or with a non-hygroscopic aerosol, the particulate specific cake resistance decreases as relative humidity increases. For pleated filters as for flat filters, the results reveal that during the formation of the particulate cake, the increase in relative humidity leads to a decrease in the specific cake resistance. When the reduction in filtration area, specific to pleated filters, becomes large, the presence of humidity accelerates the filling of pleats causing a greater pressure drop for a same aerosol mass loading. With a hygroscopic aerosol at a humidity above its deliquescent point, the change in pressure drop through flat or pleated filters is not linear but characteristic of liquid aerosol filtration. The influence of humidity on the efficiency of pleated filters, measured by a soda fluorescein aerosol, has also been studied. For clean filters, the efficiency decreases with increasing relative humidity above 90%. For filters clogged with solid aerosol, change in efficiency versus collected surface mass reaches a maximum whose value depends on the relative humidity; when the aerosol is liquid, the efficiency decreases throughout the clogging.

[1]  R. Niessner,et al.  Interaction of soot aerosol particles with water droplets: influence of surface hydrophilicity , 2001 .

[2]  G. Ewing,et al.  An infrared spectroscopic study of water thin films on NaCl (100) , 1999 .

[3]  J. Vendel,et al.  Clogging of HEPA fibrous filters by solid and liquid aerosol particles: An experimental study , 1999 .

[4]  W. S. Gregory,et al.  Response of HEPA filters to simulated-accident conditions , 1982 .

[5]  L. M. Russell,et al.  Nanosize Effect on the Deliquescence and the Efflorescence of Sodium Chloride Particles , 2006 .

[6]  Hans-Jürgen Butt,et al.  Normal capillary forces. , 2009, Advances in colloid and interface science.

[7]  N. Fuchs,et al.  Studies on Fibrous Aerosol Filters—I. Calculation of Diffusional Deposition of Aerosols in Fibrous Filters , 1966 .

[8]  S. K. Friedlander,et al.  Mass and heat transfer to single spheres and cylinders at low Reynolds numbers , 1957 .

[9]  Microstructural rearrangement of sodium chloride condensation aerosol particles on interaction with water vapor , 2000 .

[10]  J. Vendel,et al.  Clogging of fibrous filters by solid aerosol particles Experimental and modelling study , 2001 .

[11]  Antonio F. Miguel,et al.  Effect of air humidity on the evolution of permeability and performance of a fibrous filter during loading with hygroscopic and non-hygroscopic particles , 2003 .

[12]  M. Ebert,et al.  Environmental scanning electron microscopy as a new technique to determine the hygroscopic behaviour of individual aerosol particles , 2002 .

[13]  A. Renoux,et al.  PENETRATION AND PRESSURE DROP OF A HEPA FILTER DURING LOADING WITH SUBMICRON LIQUID PARTICLES , 1992 .

[14]  Marc Prat,et al.  Clogging modeling in pleated filters for gas filtration , 2010 .

[15]  V. J. Novick,et al.  The effect of solid particle mass loading on the pressure drop of HEPA filters , 1992 .

[16]  A. Yu,et al.  Effect of liquid addition on the packing of mono-sized coarse spheres , 1998 .

[17]  D. C. Walsh Recent advances in the understanding of fibrous filter behaviour under solid particle load , 1996 .

[18]  P. Contal,et al.  Clogging of fibre filters by submicron droplets. Phenomena and influence of operating conditions , 2004 .

[19]  H. Burtscher,et al.  Growth and structural changes of combustion aerosols at high relative humidity , 1995 .

[20]  Vincent J. Novick,et al.  Effect of Humidity and Particle Hygroscopicity on the Mass Loading Capacity of High Efficiency Particulate Air (HEPA) Filters , 1993 .