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Sorption of PAHs and PCBs to activated carbon: coal versus biomass-based quality
Authors:Amstaetter Katja  Eek Espen  Cornelissen Gerard
Affiliation:a Norwegian Geotechnical Institute, Environmental Engineering, P.O. Box 3930 Ullevaal, 0806 Oslo, Norway
b Department of Plant and Environmental Sciences (IPM), University of Life Sciences, P.O. Box 5003, 1432 Ås, Norway
c Department of Applied Environmental Sciences, Stockholm University, 10691 Stockholm, Sweden
Abstract:The addition of activated carbon (AC) is an increasingly popular method for pollutant immobilization, and the AC material can be made of biomass or coal/fossil feedstock. The aim of the present study was to investigate whether there are differences between pollutant sorption to biomass and coal-based AC in the presence and absence of sediment. Through N2 and CO2 adsorption to probe surface area and pore size it was shown that the biomass-based AC had a stronger dominance of narrow pores in the size range 3.5-15 Å than the anthracite-based material. In the absence of sediment, sorption isotherms for the probe compounds pyrene and PCB-101 showed stronger sorption for the biomass-based AC (logarithmic Freundlich coefficients 8.15 for pyrene; 9.91 for PCB-101) than for the anthracite-based one (logarithmic Freundlich coefficients 7.20 and 9.70, respectively). In the presence of sediment, the opposite trend was observed, with the stronger sorption for anthracite-based AC. Thus, the presence of competing and/or pore-blocking sediment constituents reduces sorption to a larger extent for biomass-derived AC (factor of 5 for pyrene to almost 100 for PCB-101) than for anthracite-based AC (no reduction for pyrene to factor of 5 for PCB-101). This difference is tentatively attributed to the difference in pore size distribution, narrow pores being more prone to clogging, and could have implications for remediation feasibility with AC from different sources.
Keywords:Activated carbon   Sediment contamination   PAHs   PCBs   Porosity
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