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Laboratory tests compared several virgin and reactivated granular activated carbons (GACs) with regard to pore-size distributions versus their water-phase adsorption capacity for several adsorbates. Pore-size characterizations employed N2 adsorption isotherms, as interpreted by the density functional theory (DFT) model. These were compared with previous results that employed the Barrett, Joyner, and Halenda model, as adapted by the authors. The newly developed DFT model offered better correlations to water-phase adsorption behavior, although it also exhibited an apparent anomaly in the 8-12-Angstrom pore-width range. For the coal-based GACs used in this study, the pore sizes that provided the greatest adsorption capacity correlated well with the dimensions of the adsorbates; small-compound adsorption correlated most strongly with micropore volume, and larger dye adsorption correlated most strongly with mesopore plus large micropore volume. Coefficients of determination exceeded 0.95 when the appropriate range of DFT pore-volume distribution was compared with dye or p-nitrophenol adsorption capacity. Includes 34 references, tables, figures. Product Details
Edition: Vol. 88 - No. 6 Published: 06/01/1996 Number of Pages: 15File Size: 1 file , 1.1 MB