A COMPACT POROUS-METAL DENUDER FOR ATMOSPHERIC SAMPLING OF INORGANIC AEROSOLS

A novel approach has been undertaken to develop a high efficiency comp act diffusion denuder utilizing a porous metal disc. The performance o f a porous metal disc used as a compact diffusion denuder has been exp erimentally and theoretically evaluated, The porous media is made of 1 00 mum grade sintered stainless-steel. The disc is 4.7 cm in diameter and 0.23 cm in thickness. Experiments showed that it has high gas coll ection efficiency and low particle loss at 10 liter per minute (1 min- 1). Using 1% sodium carbonate/glycerin coating, the collection efficie ncies for the sulfur dioxide and the nitric acid gas are 99.6 +/- 0.4% and 93.4 +/- 2.5%, respectively. Comparisons to an annular denuder sa mpling simultaneously are found to be 106.3 +/- 6.0% and 95.5 +/- 15.8 % for sulfur dioxide and nitric acid gas, respectively. The averaged l oss for monodisperse aerosols in the particle size range of 0.015-2.5 mum in diameter is under 10%, with loss of less than 3% in the importa nt size range of 0.1-2.5 mum. The sampling capacity of the denuder for 25 ppb sulfur dioxide at 10 l min-1 is over 100 h. Membrane filtratio n theory was used to model the gas collection efficiency and particle losses. The result indicates that the porous metal used as a denuder-i s very efficient in collecting gas. Also, the small size of the denude r makes it possible to design a very compact atmospheric and/or indoor denuder sampling system.