%0 Journal Article
%T Sanitation of blackwater via sequential wetland and electrochemical treatment
%J -
%D 2018
%R https://doi.org/10.1038/s41545-018-0014-x
%X The discharge of untreated septage is a major health hazard in countries that lack sewer systems and centralized sewage treatment. Small-scale, point-source treatment units are needed for water treatment and disinfection due to the distributed nature of this discharge, i.e., from single households or community toilets. In this study, a high-rate-wetland coupled with an electrochemical system was developed and demonstrated to treat septage at full scale. The full-scale wetland on average removed 79£¿¡À£¿2% chemical oxygen demand (COD), 30£¿¡À£¿5% total Kjeldahl nitrogen (TKN), 58£¿¡À£¿4% total ammoniacal nitrogen (TAN), and 78£¿¡À£¿4% ortho-phosphate. Pathogens such as coliforms were not fully removed after passage through the wetland. Therefore, the wetland effluent was subsequently treated with an electrochemical cell with a cation exchange membrane where the effluent first passed through the anodic chamber. This lead to in situ chlorine or other oxidant production under acidifying conditions. Upon a residence time of at least 6£¿h of this anodic effluent in a buffer tank, the fluid was sent through the cathodic chamber where pH neutralization occurred. Overall, the combined system removed 89£¿¡À£¿1% COD, 36£¿¡À£¿5% TKN, 70£¿¡À£¿2% TAN, and 87£¿¡À£¿2% ortho-phosphate. An average 5-log unit reduction in coliform was observed. The energy input for the integrated system was on average 16£¿¡À£¿3£¿kWh/m3, and 11£¿kWh/m3 under optimal conditions. Further research is required to optimize the system in terms of stability and energy consumption
%U https://www.nature.com/articles/s41545-018-0014-x