PLoS ONE (Jan 2013)

The effect of hydraulic loading rate and influent source on the binding capacity of phosphorus filters.

  • Inga Herrmann,
  • Amir Jourak,
  • Annelie Hedström,
  • T Staffan Lundström,
  • Maria Viklander

DOI
https://doi.org/10.1371/journal.pone.0069017
Journal volume & issue
Vol. 8, no. 8
p. e69017

Abstract

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Sorption by active filter media can be a convenient option for phosphorus (P) removal and recovery from wastewater for on-site treatment systems. There is a need for a robust laboratory method for the investigation of filter materials to enable a reliable estimation of their longevity. The objectives of this study were to (1) investigate and (2) quantify the effect of hydraulic loading rate and influent source (secondary wastewater and synthetic phosphate solution) on P binding capacity determined in laboratory column tests and (3) to study how much time is needed for the P to react with the filter material (reaction time). To study the effects of these factors, a 2(2) factorial experiment with 11 filter columns was performed. The reaction time was studied in a batch experiment. Both factors significantly (α = 0.05) affected the P binding capacity negatively, but the interaction of the two factors was not significant. Increasing the loading rate from 100 to 1200 L m(-2) d(-1) decreased P binding capacity from 1.152 to 0.070 g kg(-1) for wastewater filters and from 1.382 to 0.300 g kg(-1) for phosphate solution filters. At a loading rate of 100 L m(-2) d(-1), the average P binding capacity of wastewater filters was 1.152 g kg(-1) as opposed to 1.382 g kg(-1) for phosphate solution filters. Therefore, influent source or hydraulic loading rate should be carefully controlled in the laboratory. When phosphate solution and wastewater were used, the reaction times for the filters to remove P were determined to be 5 and 15 minutes, respectively, suggesting that a short residence time is required. However, breakthrough in this study occurred unexpectedly quickly, implying that more time is needed for the P that has reacted to be physically retained in the filter.