(6) Esmen, N. A,, Ziegler, P., Whitfield, R., J . Aerosol Sci., 9,547-56 119781. -, (7) Dahneke, B., J . Colloid Interface Sci., 37,342-53 (1971). (8)Mercer, T. T., Chow, H. Y., J . Colloid Interface Sci., 27,75-83 (1968). (9) Mercer, T. T., Stafford, R. G., Ann. Occup. H j g . , 12, 41-8 1 1969). ( 10) Marple, L'. A,, Willeke, K., Atmos. Enciron., 10,891-6 (1976).
Literature Cited
~~~
i 1) Cushing, K. M., McCain, J. D., Smith, FV. B., Enuiron. Sei.
Tcchnol., 13, 726-31 (1979). ( 2 ) Dzubay, T. G., Hines, L. E., Stevens, R. K., Atmos. EnL'iron., 10, "9-34 11976). (3) Peele, E. R., Newton. G. J., Yeh, H. C., "Effect of Collection Substrates on Performance and Wall Losses in Cascade Impactors", Inhalation Toxicology Research Institute Annual Report, LF-58, 1976-1957, p p 264-6. (4) Rao, A. K., Whitby, K. T., J . Aerosol Sci., 9,77-86 (1978). ( 5 ) Rao, A. K., Whithy, K. T., J . Aerosol Sci., 9,87-100 (1978).
I k c , i i e d for reuieio May 21, 1979. Accepted Jul? 27, 1979. Research pcjr/ormed under I.'.S. Department of Energy Contract No. E Y 76-('-04I O 1 9.
Removal and Recovery of Organic Pollutants from Aquatic Environment. 1. Vinylpyridine-Divinylbenzene Copolymer as a Polymeric Adsorbent for Removal and Recovery of Phenol from Aqueous Solution Nariyoshi Kawabata" and Kozo Ohira Department of Chemistry, Faculty of Polytechnic Science, Kyoto Institute of Technology, Matsugasaki, Sakyo-ku, Kyoto 606, Japan
Vinylpyridine-divinylbenzene copolymer was found t o have an excellent capacity for removing phenol from aqueous solution. The breakthrough capacity of the copolymer with
