Vernon L. Snoeyink scite author profile

The purpose of this research was to develop a simple method for predicting the powdered activated carbon (PAC) capacity for micropollutants in natural water. The herbicide atrazine and the odor-causing compound 2-methylisoborneol served as target compounds. Isotherm data from experiments conducted with a constant initial adsorbate concentration and varying adsorbent doses exhibited nonlinearity in both single-and multi-solute systems. However, at any given adsorbent dose, the PAC capacity for the micropollutant in multi-solute systems was directly proportional to the initial micropollutant concentration. Using the ideal adsorbed solution theory (IAST), an equation was derived that validated the experimentally observed direct proportionality between PAC capacity and initial micropollutant concentration at a given adsorbent dose. The results of this study show that the PAC dose to remove any amount of micropollutant from natural waters can be estimated without the use of mathematical models from a single isotherm experiment conducted in the natural water of interest, provided that the initial target compound concentration is sufficiently low.

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Vernon L. Snoeyink

Competitive adsorption in natural water: role of activated carbon pore size

Competitive adsorption between atrazine and methylene blue on activated carbon: the importance of pore size distribution

Iron release from corroded iron pipes in drinking water distribution systems: effect of dissolved oxygen

Iron Corrosion Scales: Model for Scale Growth, Iron Release, and Colored Water Formation

Elucidating competitive adsorption mechanisms of atrazine and NOM using model compounds

Physico-chemical characteristics of corrosion scales in old iron pipes

Pore blockage effect of NOM on atrazine adsorption kinetics of PAC: the roles of PAC pore size distribution and NOM molecular weight

Predicting the Capacity of Powdered Activated Carbon for Trace Organic Compounds in Natural Waters

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