Start-up of non-bioaugmented pumice biofilters in flow-through and recirculating flow regime for Mn removal
José Andrés Araya-Obando,
Luuk C. Rietveld,
Daniel E. Kelly-Coto,
Andrea Quesada-González,
Andrey Caballero-Chavarría,
Luis G. Romero-Esquivel
Affiliations
José Andrés Araya-Obando
Centro de Investigación en Vivienda y Construcción (CIVCO), Escuela Ingeniería en Construcción, Instituto Tecnológico de Costa Rica (ITCR), Cartago, Costa Rica
Luuk C. Rietveld
Department of Water Management, Delft University of Technology (TU Delft), Delft, The Netherlands
Daniel E. Kelly-Coto
Environmental Protection Research Center (CIPA), School of Chemistry, Instituto Tecnológico de Costa Rica (ITCR), Cartago, Costa Rica
Andrea Quesada-González
Environmental Protection Research Center (CIPA), School of Chemistry, Instituto Tecnológico de Costa Rica (ITCR), Cartago, Costa Rica
Andrey Caballero-Chavarría
Environmental Protection Research Center (CIPA), School of Chemistry, Instituto Tecnológico de Costa Rica (ITCR), Cartago, Costa Rica
Luis G. Romero-Esquivel
Environmental Protection Research Center (CIPA), School of Chemistry, Instituto Tecnológico de Costa Rica (ITCR), Cartago, Costa Rica
Biofilters are effectively used for drinking water treatment. However, the long ripening time of virgin media for manganese (Mn) removal is a major concern. In this study, the influence of the flow regime on the ripening time of virgin pumice medium was investigated. For this purpose, pilot-scale experiments were performed to compare the start-up of flow-through and recirculating filter columns using inherent inoculation with the same groundwater source. The systems were operated at 2 m·h−1 with gradual flow increments up to 5 m·h−1 and avoiding Fe-loading. Effective Mn removal (>90%) in flow-through and recirculating columns was achieved after 8 and 23 days, respectively. Flow-through columns reached compliance with a local drinking water criterion (Mn 90%) in only 8 days.; Recirculating flow regime required 23 days, however, with 50% less water consumption.; Both flow regimes registered a similar total Mn-loading (0.11–0.16 kg·Mn·m−2).; Intermittent Mn-loading provision impacted the Mn-oxidizing bacteria concentration in the pumice stone medium.; Mn-loading was the limiting factor for the ripening of pumice stone medium.;
