Abstract

Objectives : A water treatment system, combining aeration and reverse osmosis (RO) processes, was introduced to improve water supply facilities in a small village where additional water treatment was required due to high concentrations of natural radioactive substances, nitrate nitrogen, and fluoride. In this study, CCRO(Closed-circuit reverse osmosis) was first introduced for commercial use in Korea. With this system, we evaluated its water treatment efficiency and effectiveness of blending the aerated water and RO permeate for improved waterworks in rural areas.Methods : The removal rate of major pollutants and other ionic substances was evaluated by analyzing the water quality of raw water and unit processes. In addition, the operational efficiency of a small-scale water supply facility was verified and optimized by evaluating a change in operational characteristics depending on the blending ratio of the treated waters by aeration and CCRO processes.Results and Discussion : Up to 86% of the radon contained in raw water was removed by the aeration process within 2 hours, and 98.9% of uranium, 85.5% of nitrate nitrogen, and 82.8% of fluoride were removed by the RO process. In the case of other ionic substances, more than 80% was removed on average by the RO process. The higher blending ratio of RO permeate up to 75% resulted in the better quality of the final treated water. However, since requiring the high flux and pressure (at 1.8 m<sup>3</sup>/hr and 7.6 bar, respectively), CCRO operation resulted in a relatively high specific power consumption at 0.27 kWh/m<sup>3</sup>.Conclusion : In this study, we found that the major contaminants (natural radioactive substances, nitrate nitrogen, and fluoride) were effectively removed by the water treatment system wherein the aeration and CCRO processes were combined. In particular, it was confirmed for the first time in Korea that the stable operation and water treatment efficiency of the CCRO process was satisfactory for commercial purposes. It could produce high-quality tap water through the blending of waters treated by aeration and CCRO, expecting that meeting drinking-water quality standards would be attainable even when raw water contains high-concentration pollutants.

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