A review on self-sustainable microbial electrolysis cells for electro-biohydrogen production via coupling with carbon-neutral renewable energy technologies
Microbial electrolysis cell (MEC) technology is a promising bioelectrochemical hydrogen
production technology that utilizes anodic bio-catalytic oxidation and cathodic reduction …
production technology that utilizes anodic bio-catalytic oxidation and cathodic reduction …
Waste-to-hydrogen technologies: A critical review of techno-economic and socio-environmental sustainability
Hydrogen is a fuel with immense potential of satisfying the need for environmentally benign
energy sources, and waste-derived hydrogen is promising in diverting waste streams away …
energy sources, and waste-derived hydrogen is promising in diverting waste streams away …
Experimental investigation of a novel thermoelectric generator design for exhaust waste heat recovery in a gas-fueled SI engine
In this paper, a series of tests are performed on the exhaust waste heat recovery using a
thermoelectric generator (TEG) in a propane-fueled spark-ignition (SI) engine. A three-layer …
thermoelectric generator (TEG) in a propane-fueled spark-ignition (SI) engine. A three-layer …
Power generation of thermoelectric generator with plate fins for recovering low-temperature waste heat
Low-temperature waste heat has great potential for renewable power because it accounts
for around 60% of total industrial waste heat. This study develops a model of integrating …
for around 60% of total industrial waste heat. This study develops a model of integrating …
Waste heat recovery from exhausted gas of a proton exchange membrane fuel cell to produce hydrogen using thermoelectric generator
Y Lan, J Lu, L Mu, S Wang, H Zhai - Applied Energy, 2023 - Elsevier
Proton exchange membrane fuel cell (PEMFC) is an efficient (40–50%) carrier to utilize
hydrogen, which means around 50–60% of waste heat dissipates into ambience. To recover …
hydrogen, which means around 50–60% of waste heat dissipates into ambience. To recover …
[HTML][HTML] A synergetic effect of piezoelectric energy harvester to enhance thermoelectric Power: An effective hybrid energy harvesting method
Hybrid energy harvesters, using multiple harvesting mechanisms, have been proposed to
overcome the limitations of single-mode energy harvesters. However, since the most hybrid …
overcome the limitations of single-mode energy harvesters. However, since the most hybrid …
Coaxial microbial electrolysis cell for cost‐effective bioenergy production and wastewater treatment of potato industry effluent
BACKGROUND The increase in energy and water demand due to industrialization and
urbanization requires prioritized solutions for a sustainable future. Microbial electrolysis cells …
urbanization requires prioritized solutions for a sustainable future. Microbial electrolysis cells …
[HTML][HTML] Hydrogen production from microbial electrolysis cells powered with microbial fuel cells
D Aboelela, MA Soliman - Journal of King Saud University-Engineering …, 2024 - Elsevier
This work used a unified dynamic model of microbial fuel cells (MFCs) and microbial
electrolysis cells (MECs) that were combined to create MFC-powered MECs. This allowed …
electrolysis cells (MECs) that were combined to create MFC-powered MECs. This allowed …
Microbioplastics sources, mobility, impact, and management: a review
Biodegradable plastics have been developed as an alternative to fossil fuel-derived plastics,
yet knowledge on pollution by microbioplastics has not been summarized. Here, we review …
yet knowledge on pollution by microbioplastics has not been summarized. Here, we review …
Revolutionising waste-to-energy through the advanced and pragmatic operation of microbial electrochemical technologies
Microbial electrochemical technologies (METs) holds promise for converting waste into
electrical power and hydrogen generation. Transitioning from lab to real-world applications …
electrical power and hydrogen generation. Transitioning from lab to real-world applications …