Microbial Electrosynthesis Inoculated with Anaerobic Granular Sludge and Carbon Cloth Electrodes Functionalized with Copper Nanoparticles for Conversion of CO2 to CH4

Georgiou, Sofia G.; Κουτσοκέρας, Λουκάς; Constantinou, Marios; Majzer, Rafał; Markiewicz, Justyna; Siedlecki, Marcin; Vyrides, Ioannis; Constantinides, Georgios

doi:10.3390/nano12142472

Cited by 3 publications

(1 citation statement)

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“…The technology of MES is an evolving one in bioelectrochemical research; it utilizes the electrons resulting from the cathode to reduce CO 2 and other compounds into different chemicals [125]. The benefits of MES include not only CO 2 sequestration and chemical production, but also address the harvesting, storing, and circulation difficulties linked with energy, as the electrons harvested can be from any sustainable source [126]. As this technology is still in its embryonic form, there has been limited research conducted on it and that also employing dairy wastewater.…”

Section: Valuables Recovered Through Mes Using Dairy Wastewatermentioning

confidence: 99%

Dairy Wastewater as a Potential Feedstock for Valuable Production with Concurrent Wastewater Treatment through Microbial Electrochemical Technologies

2022

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A milk-processing plant was drafted as a distinctive staple industry amid the diverse field of industries. Dairy products such as yogurt, cheese, milk powder, etc., consume a huge amount of water not only for product processing, but also for sanitary purposes and for washing dairy-based industrial gear. Henceforth, the wastewater released after the above-mentioned operations comprises a greater concentration of nutrients, chemical oxygen demand, biochemical oxygen demand, total suspended solids, and organic and inorganic contents that can pose severe ecological issues if not managed effectively. The well-known processes such as coagulation–flocculation, membrane technologies, electrocoagulation, and other biological processes such as use of a sequencing batch reactor, upflow sludge anaerobic blanket reactor, etc., that are exploited for the treatment of dairy effluent are extremely energy-exhaustive and acquire huge costs in terms of fabrication and maintenance. In addition, these processes are not competent in totally removing various contaminants that exist in dairy effluent. Accordingly, to decrease the energy need, microbial electrochemical technologies (METs) can be effectively employed, thereby also compensating the purification charges by converting the chemical energy present in impurities into bioelectricity and value-added products. Based on this, the current review article illuminates the application of diverse METs as a suitable substitute for traditional technology for treating dairy wastewater. Additionally, several hindrances on the way to real-world application and techno-economic assessment of revolutionary METs are also deliberated.

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Section: Valuables Recovered Through Mes Using Dairy Wastewatermentioning

confidence: 99%