Abstract
This study investigated the effect of pre-fermented urine on anode performance of a two-chambered microbial electrolysis cells (MECs) compared to raw urine. Pre-fermentation of urine was performed by anaerobic digestion. The effect of this pre-fermentation on anode performance of a MEC was assessed by measuring the removal of chemical oxygen demand (COD), current density and Coulombic efficiency (CE). The MEC using fermented urine achieved a higher average current density (218 ± 6 mA m−2) and a higher CE (17%). Although no significant differences were observed in the COD removal efficiency between both urines, the MEC using fermented urine displayed the highest COD removal rate (0.14 ± 0.02 g L−1 d−1). The organic compounds initially found in both urines, as well as the metabolic products associated to the biodegradation of the organic matter were analyzed by proton nuclear magnetic resonance (1H NMR). The main compounds initially identified in the raw urine were urea, creatinine and acetate. In the fermented urine, the main compounds identified were methylamine, acetate and propionic acid demonstrating the effectiveness of the anaerobic fermentation step.
Highlights
Urine is a high concentrated wastewater stream, which contributes with around 75% of the total amount of nitrogen (N) and 50% of the total amount of phosphorus (P) present in domestic wastewater [1]
The anodic performance of a microbial electrolysis cells (MECs) was effectively improved through the application of fermented urine, obtained after anaerobic digestion, in comparison to the use of raw urine
The efficiency of the anaerobic digestion process was evaluated through 1H NMR analysis, which showed acetate, propionate and methylamine as the major compounds fermented urine
Summary
Urine is a high concentrated wastewater stream, which contributes with around 75% of the total amount of nitrogen (N) and 50% of the total amount of phosphorus (P) present in domestic wastewater [1]. Urine accounts for only 1% of the total volume of wastewater. In fresh urine most of the N is mainly found as urea [3]. Urine stored during 6 days, contains a COD concentration of 9.3 g LÀ1 and approximately 1.9 g LÀ1 of ammonium nitrogen (NH4þ-N) [5]. Urine can be considered as a valuable wastewater stream for energy production and N recovery in bioelectrochemical systems (BESs) [6]
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