In this study, Coal Fly Ash (CFA), a byproduct of coal combustion power plants, was used as an adsorbent to remove color from
locally-obtained pulp mill effluent (PME). Batch adsorption studies were conducted to determine the adsorption parameters that
would result in the maximum color removal from PME at the lowest CFA dosage and process cost. The effects of operating
variables on color removal were studied by varying: 1) CFA dosage, 2) initial PME pH, and 3) contact time. The findings indicate
that the optimum CFA dosage for cost-effective color removal was 100.0 g/L (80.5% removal) given an initial effluent color
concentration below 900 mg/L Pt-Co color units. For effluent samples with a color concentration over 900 mg/L Pt-Co color units,
the optimum CFA dosage was 250.0 g/L (80.4% removal). In addition, no pH adjustment of the PME was required for maximum
color removal. A kinetic study showed that color removal by CFA occurred rapidly in the first hour, and adsorption equilibrium
was achieved at 24 hours. Additionally, the kinetic and isotherm adsorption data was best described by the Ho et al. kinetic model
and the Langmuir and Freundlich isotherm models, respectively. Overall, this research found CFA to be a promising low-cost
adsorbent for the removal of color from PME.