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Effluent pH correlates with electrochemical nitrogen recovery efficiency at pilot scale operation

Mariana Rodrigues, Sam Molenaar, Joana Barbosa, Tom Sleutels, H.V.M. Hamelers, Cees J.N. Buisman, Philipp Kuntke

2022Separation and Purification Technology19 citationsDOIOpen Access PDF

Abstract

A bipolar electrodialysis (BP-ED) pilot plant including 3.15 m 2 of cation exchange membrane and bipolar membrane each was operated for ammonia recovery. The pilot treated source-separated diluted urine (1 gNH 4 + /L). Previously found set operation parameters for lab-scale such as current density and nitrogen load did not directly influence the stack performance. However, the effluent pH was directly related to the removal efficiency of the system. 80% nitrogen removal was achieved at a set effluent pH of 4. Operating under an effluent pH control strategy was more effective to control NH 4 + removal than controlling current density or nitrogen loading, as it accounts for fluctuation in wastewater availability and composition. The pilot plant removed up to 88% of the NH 4 + from urine and recovered around 700 g/day (from 1 m 3 of urine). This was a significant improvement compared to the pilot plant previous performance on digestate. The energy consumption was around 13 Wh/g N . The overall current efficiency was ∼40% with most losses caused by parasitic ionic shortcut currents occurring at the hydraulic manifolds of the BP-ED stack. Therefore, the energy demand can be further decreased by preventing these ionic shortcuts in the new cell designs.

Topics & Concepts

EffluentChemistryNitrogenPilot plantPulp and paper industryEnvironmental scienceElectrochemistryEnvironmental chemistryWaste managementEnvironmental engineeringElectrodeEngineeringOrganic chemistryPhysical chemistryMembrane-based Ion Separation TechniquesMembrane Separation TechnologiesMicrobial Fuel Cells and Bioremediation