Efficient bicarbonate removal and recovery of ammonium bicarbonate as CO2 utilization using flow-electrode capacitive deionization

[Display omitted] •FCDI system was first proposed as a CO2 utilization technology.•Bicarbonate was removed and enriched as NH4HCO3 from synthetic swine wastewater.•Parametric investigation of FCDI was conducted for bicarbonate removal.•Approximately an 1.61 M of NH4HCO3 concentrated solution was obtained in 30 h. The use of wastewater for CO2 mineralization is a promising strategy that not only addresses environmental issues (i.e., preventing greenhouse gas emissions and algal blooms by CO2 removal), but also produces economic benefits (i.e., recovery of carbonate-based minerals). In this study, we propose an innovative flow-electrode capacitive deionization (FCDI) system for efficient bicarbonate ion (HCO3−) removal and ammonium bicarbonate (NH4HCO3) enrichment from synthetic swine wastewater, which commonly contains excessive ammonium ions (NH4+) and HCO3−. The effects of different operational parameters for HCO3− removal and enrichment were investigated. At optimal operating conditions, we achieved approximately 1.61 M of NH4HCO3 concentrated solution with 97.2% of purity in 30 h with a C removal rate of 1.01 kg C m−2 d−1 and energy consumption of 2.87 kWh kg−1C. This is a removal rate of approximately 2–5 times greater than other electrochemical systems and 25% less energy consumption. In addition, the feasibility of the NH4HCO3 enrichment via the FCDI system was also verified by X-ray diffraction (XRD) analysis and Raman spectroscopy. This work provides an efficient strategy for NH4HCO3 enrichment from swine wastewater and a great potential to expand the scope of CO2 utilization.