Abigail Mwin-nea Samwini scite author profile

CWMFC is a novel technology that has been used for almost a decade for concurrent wastewater treatment and electricity generation in varying scopes of domestic, municipal, and industrial applications since its implementation in 2012. Its advantage of low-cost enhanced wastewater treatment and sustainable bioelectricity generation has gained considerable attention. Nevertheless, the overall efficiency of this novel technology is inclined by several operating factors and configuration strands, such as pH, sewage composition, organic loading, electrode material, filter media, electrogens, hydraulic retention time, and macrophytes. Here, we investigate the effect of the wetland plant component on the overall performance of CWMFCs. The macrophyte’s involvement in the oxygen input, nutrient uptake, and direct degradation of pollutants for the required treatment effect and bioelectricity production are discussed in more detail. The review identifies and compares planted and unplanted CWMFC with their efficiency on COD removal and electricity generation based on previous and recent studies.

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Effects of Cadmium Exposure on Epiphytic Bacterial Communities and Water Quality in Vegetated Mesocosmic Wetlands

Chen

Adjei

Samwini

et al. 2023

Preprint

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Abigail Mwin-nea Samwini

Effect of erythromycin on epiphytic bacterial communities and water quality in wetlands

The Role of Wetland Plants on Wastewater Treatment and Electricity Generation in Constructed Wetland Coupled with Microbial Fuel Cell

Effects of Cadmium Exposure on Epiphytic Bacterial Communities and Water Quality in Vegetated Mesocosmic Wetlands

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