Over the last 15 years, urine treatment technologies have developed from lab studies of a
few pioneers to an interesting innovation, attracting attention from a growing number of …

The need for better nutrient management has spurred efforts towards more comprehensive
recycling of nutrients contained in human excreta to agriculture. Research in this direction …

Urea is a new member of hydrogen‐storage materials for low‐temperature fuel cells. It
avoids issues of toxicity and safety compared to NH3 and hydrazine. The main limitation of …

A large amount of chemical energy in wastewater is highly valuable in resource utilization,
and nitrogen is one of the key nutrients and contaminants in diverse wastewater. Traditional …

Zeolites synthesized from biomass waste materials offer a great opportunity in the
sustainable utilization of the waste. In this work, energy-efficient processes (ie microwave …

Microbial fuel cell (MFC) systems are promising technologies for wastewater treatment and
renewable energy generation simultaneously. Performance of a double-chamber microbial …

The present study investigates the changes in the microbial community and the degradation
of organic compounds in microbial fuel cells (MFCs) operated on human urine. An …

Recently, terracotta has attracted interest as low-cost and biocompatible material to build
separators in microbial fuel cells (MFCs). However, the influence of a non-conductive …

In recent years, source-separated human urine has been highlighted as an effective
resource for energy and nutrient recovery. However, even though several technologies exist …

Microbial fuel cells (MFCs) technology is frequently conferred as a division of wastewater
treatment along with electricity generation. Specifically, the application of MFCs for energy …